B[1].Tech Detailed Syllabi

1

COURSE STRUCTURES FOR FIRST YEAR B.TECH.PROGRAMME AT KIIT UNIVERSITY, BHUBANESWAR

(FOR STUDENTS ADMITTED IN THE SESSION 2010-2011)

(Syllabus common to All Branches of B. Tech. Programme)

FIRST SEMESTER (SCHEME-I)

Theory

Sl. No

Course Code

Subject L T P Total Credit

1. MA-101 Mathematics – I 3 1 0 4 4 2. PH-101 Physics – I 2 1 0 3 3 3. CH-101/201 Chemistry 3 1 0 4 4 4. ME-101/201 Engg. Mechanics 3 1 0 4 4 5. EE-101/201 Electrical Science 2 1 0 3 3 Total of Theory 18 18

Practical 1. PH-191 Physics Lab – I 0 0 3 3 2 2. CH-191/291 Chemistry Lab 0 0 3 3 2 3. EE-191/291 Electrical Science Lab 0 0 3 3 2 Total of Practical 9 6

Sessionals 1. CE-181/281 Engg. Graphics 0 0 3 3 2 Total of Sessional 3 2 Grand Total 30 26

SECOND SEMESTER (SCHEME-I)

Theory Sl. No Course Code Subject L T P Total Credit

1. MA-201 Mathematics – II 3 1 0 4 4 2. PH-201 Physics – II 2 1 0 3 3 3. CS-201/101 Computer Systems & Programming 3 0 0 3 3 4. EC-201/101 Basic Electronics 3 0 0 3 3 5. HU-201/101 Professional Communication 3 0 0 3 3 Total of Theory 16 16

Practical 1. PH-291 Physics Lab – II 0 0 3 3 2 2. EC-291/191 Basic Electronics Lab 0 0 3 3 2 3. CS-291/191 Computer Programming Lab 0 0 3 3 2 Total of Practical 9 6

Sessionals 1. ME-281/181 Basic Manufacturing Systems 0 0 3 3 2 2. HU-281/181 Professional Communication Lab 0 0 2 2 1 Total of Sessional 5 3 Grand Total 30 25

3. EAA – 1 Extra Academic Activity P/NP

2

FIRST SEMESTER (SCHEME-II)

Theory Sl. No. Course

Code Subject L T P Total Credit

1. MA-101 Mathematics – I 3 1 0 4 4 2. PH-101 Physics – I 2 1 0 3 3 3. CS-101/201 Computer Systems & Programming 3 0 0 3 3 4. EC-101/201 Basic Electronics 3 0 0 3 3 5. HU-101/201 Professional Communication 3 0 0 3 3 Total of Theory 16 16

Practical 1. PH-191 Physics Lab – I 0 0 3 3 2 2. EC-191/291 Basic Electronics Lab 0 0 3 3 2 3. CS-191/291 Computer Programming Lab 0 0 3 3 2 Total of Practical 9 6

Sessionals 1. ME-281/181 Basic Manufacturing Systems 0 0 3 3 2 2. HU-281/181 Professional Communication Lab 0 0 2 2 1 Total of Sessionals 5 3 Grand Total 30 25

SECOND SEMESTER (SCHEME-II)

Theory Sl. No. Course

Code Subject L T P Total Credit

1. MA-201 Mathematics – II 3 1 0 4 4 2. PH-201 Physics – II 2 1 0 3 3 3. CH-201/101 Chemistry 3 1 0 4 4 4. ME-201/101 Engg. Mechanics 3 1 0 4 4 5. EE-201/101 Electrical Science 2 1 0 3 3 Total of Theory 18 18

Practical 1. PH-291 Physics Lab – II 0 0 3 3 2 2. CH-291/191 Chemistry Lab 0 0 3 3 2 3. EE-291/191 Electrical Science Lab 0 0 3 3 2 Total of Practical 9 6

Sessionals 1. CE-281/181 Engg. Graphics 0 0 3 3 2 Total of Sessional 3 2 Grand Total 30 26

2. EAA – 1 Extra Academic Activity P/NP

3

COURSE STRUCTURE FOR B.TECH IN CIVIL ENGINEERING

SEMESTER-III Theory

Sl. No. Course Code

Subjects L T P Total Credit

1 MA-301 Mathematics-III 3 1 0 4 4 2 CE-301 Solid Mechanics 3 1 0 4 4 3 CE-302 Fluid Mechanics-I 3 1 0 4 4 4 CE-303 Surveying 3 1 0 4 4 5 CE-304 Civil Engineering Materials &

Construction 3 0 0 3 3

Total of Theory 19 19 Practical

1 CE-391 Surveying Field Work 0 0 3 3 2

2 CE-392 Material Testing Lab 0 0 3 3 2

Sessional 1 CE-381 Building Drawings 0 0 3 3 2

Total Practical & Sessional 9 6 Semester Total 28 25

1 EAA-2 Extra Academic Activity (EAA-II) P/NP

SEMESTER-IV Theory

Sl. No. Course Code Subjects L T P Total Credit 1 MA-402 Numerical Methods 3 1 0 4 4 2 CE-401 Fluid Mechanics-II 3 1 0 4 4 3 CE-402 Structural Analysis-I 3 1 0 4 4 4 CE-403 Transportation Engineering-I 3 0 0 3 3 5 CE-404 Environmental Engineering 3 0 0 3 3


1 CE-491 Environmental Engg. Lab 0 0 3 3 2 2 CE-492 Transportation Engg. Lab 0 0 3 3 2 2 CE-493 Fluid Mechanics Lab 0 0 3 3 2

Sessional 2 CE-482 Estimating & Costing 0 0 2 2 1


4

SEMESTER-V - CIVIL ENGINEERING

Theory

Sl. No. Course Code


1 CE-501 Structural Analysis-II 3 1 0 4 4 2 CE-502 Principles of Structural Design 3 1 0 4 4 3 CE-503 Water Resources Engineering-I 3 1 0 4 4 4 CE-504 Geotechnical Engineering-I 3 1 0 4 4 5 CE-505 Water & Waste Water Engineering 3 0 0 3 3


1 CE-591 Geotechnical Engineering Lab. 0 0 3 3 2 Sessional

1 CE-581 Hydrological & Irrigation Design 0 0 3 3 2 2 CE-582 Environmental Design 0 0 3 3 2


SEMESTER-VI - CIVIL ENGINEERING

Theory

Sl. No. Course Code Subjects L T P Total Credit 1 CE-601 Design of Concrete Structures 3 1 0 4 4 2 CE-602 Water Resources Engineering-II 3 1 0 4 4 3 CE-603 Geotechnical Engineering-II 3 1 0 4 4 4 CE-604 Advanced Surveying 3 0 0 3 3 5 HU-601 Engineering Economics 3 1 0 4 4


1 CE-691 Advanced Surveying Field Work 0 0 3 3 2 Sessional

1 CE-681 Water Resources Design - - 3 3 2 2 CE-682 Structural Design (RCC) - - 3 3 2

Total Practical / Sessional 9 6 Semester Total 28 25

5

SEMESTER-VII - CIVIL ENGINEERING

Sl. No.

Course Code


1 CE-701 Design of Steel Structures 3 1 0 4 4 2 CE-702 Transportation Engineering-II 3 0 0 3 3 3 Department Elective-I 3 0 0 3 3 4 Department Elective-II 3 0 0 3 3 5 Department Elective-III /

Open Elective 3 0 0 3 3


1 CE-791 Concrete & Structure Lab. 0 0 3 3 2 Sessional

1 CE-781 Structural Design (Steel) - - 3 3 2 2 CE-782 Transportation Design - - 3 3 2 3 CE-783 Project Preparation - - 6 6 3

4 CE-784 Practical Training - - - - 2 Total Sessional 15 11 Semester Total 31 27

SEMESTER-VIII - CIVIL ENGINEERING

Sl. No. Course Code Subjects L T P Total Credit

1 CE-801 Construction Planning & Management

3 0 0 3 3

2 Department Elective-IV 3 0 0 3 3

3 Department Elective-V / Open Elective

3 0 0 3 3

4 Department Elective-VI / Open Elective

3 0 0 3 3

Total of Theory 12 12 Sessional

1 CE-881 Computer Application in Civil Engineering

- - 3 3 2

2 CE-882 Seminar - - - - 2

CE-883 Comprehensive Viva-Voce - - - - 2

3 CE-884 Project - - 9 9 5 Total of Sessional 12 11 Semester Total 24 23

6

LIST OF DEPARTMENT ELECTIVES

Sl. No. Subject Code Subject Name Credit

Elective-I

1. CE-711 Pre-stressed Concrete Design 3

2. CE-712 Concrete Technology 3

3. CE-713 Advanced Foundation Engineering 3

4. CE-714 Ground Improvement Engineering 3

Elective-II

1. CE-721 Groundwater Hydrology 3

2. CE-722 Open Channel Hydraulics 3

3. CE-723 Pavement Materials 3

4. CE-724 Project Safety Management 3

Elective-III

1. CE-731 Construction Methods & Equipments 3

2. CE-732 Disaster Management 3

3. CE-733 Finite Element Method 3

4. CE-734 Earthquake Engineering 3

Elective-IV

1. CE-811 Traffic Engineering & Transportation Planning 3

2. CE-812 Pavement Design 3

3. CE-813 Structural Analysis III 3

4. CE-814 Bridge Engineering 3

Elective-V

1. CE-821 Water Power Engineering 3

2. CE-822 Water Resources Systems 3

3. CE-823 Building Services Planning 3

4. CE-824 Remote Sensing & GIS 3

Elective -VI

1. CE-831 Environmental Impact Assessment & Auditing 3

2. CE-832 Construction Methods & Equipments 3

3. CE-833 Construction Engineering Practices 3

4. CE-834 Cost Effective Housing 3

7

LIST OF OPEN ELECTIVES (Offered by School of Civil Engineering)

Sl. No.

Semester Course code Subjects Credit Pre-requisite

1 III CE-301 Solid Mechanics 4 Engineering Mechanics CE-302 Fluid Mechanics-I 4 Nil CE-304 Civil Engineering Materials &

Construction 3 Nil

2 IV CE-401 Fluid Mechanics-II 4 Fluid Mechanics-I CE-403 Transportation Engg.-I 4 Nil CE-404 Environmental Engineering 3 Nil

3 V CE-501 Geotechnical Engineering-I 4 Nil CE-503 Water Resources Engineering-I 4 Nil CE-505 Water & Waste Water Engg. 3 Environmental Engineering

4 VI CE-601 Geotechnical Engineering-II 4 Geotechnical Engg-I CE-602 Water Resources Engineering-II 4 Water Resources Engg.-I

5 VII CE-702 Transportation Engg.-II 4 Transportation Engg.-I CE-732 Disaster Management 3 Nil CE-721 Groundwater Hydrology 3 Nil

6 VIII CE-831 Environmental Impact Assessment & Auditing

3 Nil

N. B.: A student has to clear a minimum of 200 credits to be eligible for the B.Tech degree. This includes all the core and

elective courses (other than open electives) of his own department, which the student must clear for getting the degree in his/her discipline. However, he/she is free to add beyond 200 credits by taking more number of open electives from other Schools.

8

COURSE STRUCTURE FOR B.TECH IN COMP. SC. & ENGINEERING

SEMESTER III

Theory Sl No Subject

Code Course Title L T P Total Credits

1 MA-302 Discrete Mathematics 3 1 0 4 4

2 CS-301 Data Structures & Algorithms 3 1 0 4 4 3 IT-301 Object Oriented Programming 3 1 0 4 4

4 MA-301 Mathematics III 3 1 0 4 4

5 EC-301 Analog Electronic Circuits -I 3 1 0 4 4


1 IT-391 Object Oriented Programming Laboratory

0 0 3 3 2

2 CS-391 Data Structures Laboratory 0 0 6 6 4

Total of Practical 9 6 Total of Semester 29 26


SEMESTER IV

Theory

Sl No Subject Code Course Title L T P Total Credits

1 CS-402 Database Management Systems 3 1 0 4 4

2 CS-401/ 501 Operating Systems 3 1 0 4 4 3 CS-403 Principles of Programming

Languages 3 1 0 4 4

4 EC-402 Digital Electronics 3 1 0 4 4 5 MA401 Mathematics- IV 3 1 0 4 4


1 CS-492 Database Systems Laboratory 0 0 3 3 2

2 CS-491 Operating Systems Laboratory 0 0 3 3 2

3 EC-492 Digital Electronics Laboratory 0 0 3 3 2


9

SEMESTER V - COMP. SC. & ENGINEERING

Theory Sl No

Subject Code Course Title L T P Total Credits

1 CS-502 Design and Analysis of Algorithms 3 1 0 4 4

2 CS-505/ 605 Computer Organization & Architecture 3 1 0 4 4 3 IT-502/ 602 Computer Graphics & Multimedia 3 1 0 4 4 4 CS-504 Theory of Computation 3 1 0 4 4 5 EC-506/406 Introduction to Digital Communication 3 1 0 4 4


1 CS-592 Algorithms Laboratory 0 0 3 3 2 2 IT-592/ 692 Computer Graphics Laboratory 0 0 3 3 2 3 CS-594 Advanced Programming Laboratory 0 0 3 3 2


SEMESTER VI - COMP. SC. & ENGINEERING

Theory


1 IT-603 Computer Networks 3 1 0 4 4

2 IT-601/ 501 Software Engineering 3 1 0 4 4

3 CS-603/ 503 Microprocessors & Interfacing 3 1 0 4 4

4 CS-601 Compiler Design 3 1 0 4 4 5 Institute Elective-I 3 1 0 4 4

Total of Theory 20 20

Practical

1 CS-691 Compiler Design Laboratory 0 0 3 3 2

2 IT-691 Computer Networks Laboratory 0 0 3 3 2

3 CS-693/ 593 Microprocessor Laboratory 0 0 3 3 2


10

SEMESTER VII - COMP. SC. & ENGINEERING

Theory


1 IT-703 Object Oriented System Design 3 1 0 4 4

2 CS-701 Artificial Intelligence 3 1 0 4 4 3 Dept. Elective – I/Open Elective 3 1 0 4 4

4 Dept. Elective – II/ Open Elective 3 1 0 4 4 5 Institute Elective-II 3 0 0 3 3

Total of Theory 19 19 Sessionals

1 CS-782 Minor Project 0 0 6 6 3

2 CS-781 Industrial Training 0 0 0 0 2 Total of Sessionals 6 5 Total of Semester 25 24

SEMESTER VIII - COMP. SC. & ENGINEERING

Theory


1 CS-810 Advanced Computer Architecture 3 1 0 4 4

2 Dept. Elective – III/ Open Elective 3 1 0 4 4

3 Dept. Elective – IV/ Open Elective 3 1 0 4 4

4 CH-801 Environmental Sciences 2 0 0 2 2


Sessionals 1 CS-881 Seminar 0 0 6 6 2 2 CS-882 Major Project 0 0 9 9 5 3 CS-883 General Viva Voce - - - - 2

Total of Sessionals 15 9 Total of Semester 29 23

11

Electives offered by School of Computer Engineering

Institute Elective – I Sl. No Subject Code Subject Name Credit 1 HU-401/501/601 Engineering Economics 4

2 HU-402/502/602 Public Finance 4

3 HU-403/503/603 International Trade & Policy 4

Institute Elective – II 1 HU-606/706/806 Entrepreneurship 3 2 HU-605 /705/805 Management Concepts & Practices 3 3 HU-611/711 Human Resource Management 3 Dept. Elective – I

1 2 3 4 5

CS-706 CS-711 CS-713 IT-710 IT-702

Parallel and Distributed Computing Bio-informatics Real-Time Systems Mobile Computing Computer Security

4 4 4 4 4

Dept. Elective – II

1 CS-715 Pattern Recognition 4 2 IT-712 Image Processing 4 3 IT-714 Enterprise Computing using Java 4 4 5

IT-715 CS-716

Information Retrieval Distributed Database Systems

4 4

Dept. Elective – III

1 IT-811 Data Mining & Data Warehousing 4 2 IT-812 Management Information System 4 3 IT-813 Software Project Management 4 4 IT-814 Software Testing 4 5 IT-817 Service Oriented Architecture 4 Dept. Elective – IV 1 2 3 4 5

CS-816 IT-815 IT-816 CS-812 CS-813

Natural Language Processing Soft Computing E-Commerce and ERP Simulation and Modeling Embedded System

4 4 4 4 4

12

COURSE STRUCTURE FOR B.TECH IN INFORMATION TECHNOLOGY

SEMESTER III

Theory

Sl No

Subject Code Course Title

L T P Total Credits

1. MA-302 Discrete Mathematics 3 1 0 4 4 2. CS-301 Data Structures and Algorithms 3 1 0 4 4 3. EC-301 Analog Electronic Circuits-I 3 1 0 4 4

4. MA-301 Mathematics III 3 1 0 4 4

5. IT-301 Object Oriented Programming 3 1 0 4 4


1. CS-391 Data Structures Lab 0 0 6 6 4

2. IT-391 Object Oriented Programming Lab 0 0 3 3 2

Total of Practical 0 0 9 9 6 Total of Semester 29 26


SEMESTER IV

Theory

Sl No Subject Code Course Title

L T P Total Credits

1. IT-401 Web Technology 3 1 0 4 4

2. EC-402 Digital Electronics Circuits 3 1 0 4 4

3. CS-402 Database Management Systems 3 1 0 4 4

4. EC- 406/506

Introduction to Digital Communication

3 1 0 4 4

5. MA-401 Mathematics – IV 3 1 0 4 4


Practical

1. EC-492 Digital Electronics Lab 0 0 3 3 2

2. CS-492 Database Systems Lab 0 0 3 3 2

3. IT-491 Web Technology Lab 0 0 3 3 2

Total of Practical 9 6

Total of Semester 29 26

13

SEMESTER-V - INFORMATION TECHNOLOGY

Theory

Sl No Subject Code Course Title

L T P Total Credits

1. CS-502 Design & Analysis of Algorithms 3 1 0 4 4

2. CS-503/ 603 Microprocessors & Interfacing 3 1 0 4 4

3. CS-504 Theory of Computation 3 1 0 4 4

4. CS-401/ 501 Operating Systems 3 1 0 4 4

5. IT-501/ 601 Software Engineering 3 1 0 4 4


Practical 1. CS-592 Algorithms Lab 0 0 3 3 2

2. CS-593/ 693 Microprocessor Lab 0 0 3 3 2

3. CS-491/ 591 Operating Systems Lab 0 0 3 3 2 Total of Practical 9 6 Total of Semester 29 26

SEMESTER-VI - INFORMATION TECHNOLOGY

Theory


1. IT-502/ 602 Computer Graphics & Multimedia 3 1 0 4 4

2. IT-603 Computer Networks 3 1 0 4 4

3. CS-505/ 605 Computer Organization & Architecture

3 1 0 4 4

4. CS-601 Complier Design 3 1 0 4 4

5. Institute Elective-I 3 1 0 4 4 Total of Theory 20 20 Practical

1. IT-592/ 692 Computer Graphics Lab 0 0 3 3 2

2. IT-691 Computer Networks Lab 0 0 3 3 2

3. CS-691 Complier Design Lab 0 0 3 3 2


14

SEMESTER-VII - INFORMATION TECHNOLOGY

Theory Sl.No Subject


1. IT-702 Computer Security 3 1 0 4 4 2. IT-703 Object Oriented System Design 3 1 0 4 4

3. Dept. Elective-I/Open Elective 3 1 0 4 4 4. Dept. Elective-II/ Open Elective 3 1 0 4 4

5. Institute Elective-II/ Open Elective 3 0 0 3 3


1. IT-782 Minor Project 0 0 6 6 3 2. IT-781 Industrial Training - - - - 2

Total of Sessionals 6 5 Semester Total 25 24

SEMESTER-VIII - INFORMATION TECHNOLOGY

Theory

Sl No

Subject Code

Course Title L T P Total Credits

1. IT-811 Data Mining & Data Warehousing 3 1 0 4 4

2. Dept. Elective-III/ Open Elective 3 1 0 4 4

3. Dept. Elective-IV/ Open Elective 3 1 0 4 4

4. CH-801 Environmental Science 2 0 0 2 2


Sessionals 1. IT-881 Seminar 0 0 6 6 2

2. IT-882 Major Project 0 0 9 9 5

3. IT-883 General Viva-voce - - - - 2

Total of Sessionals 15 9 Total of Semester 29 23

15

Electives offered by School of Computer Engineering Institute Elective – I Sl. No Subject Code Subject Name Credit 1 HU-401/501/601 Engineering Economics 4

2 HU-402/502/602 Public Finance 4

3 HU-403/503/603 International Trade & Policy 4

Institute Elective – II 1 HU-606/706/806 Entrepreneurship 3 2 HU-605 /705/805 Management Concepts & Practices 3 3 HU-611/711 Human Resource Management 3

Dept. Elective – I

1 2 3 4

CS-706 CS-711 CS-713 IT-710

Parallel and Distributed Computing Bio-informatics Real-Time Systems Mobile Computing

4 4 4 4

Dept. Elective – II

1 CS-715 Pattern Recognition 4 2 IT-712 Image Processing 4 3 IT-714 Enterprise Computing using Java 4 4 5

IT-715 CS-716

Information Retrieval Distributed Database Systems

4 4

Dept. Elective – III

1 IT-811 Data Mining & Data Warehousing 4 2 IT-812 Management Information System 4 3 IT-813 Software Project Management 4 4 IT-814 Software Testing 4 5 IT-817 Service Oriented Architecture 4 Dept. Elective – IV 1 2 3 4 5

CS-816 IT-815 IT-816 CS-812 CS-813

Natural Language Processing Soft Computing E-Commerce and ERP Simulation and Modeling Embedded System

4 4 4 4 4

16

List of open electives offered by School of Computer Engineering

Sl. No. Semester Course code Subjects Credit Pre-requisite

1 III CS-301 Data Structures & Algorithms 4 - IT-301 Object Oriented Programming 3 -

2 IV CS-402 Database Management Systems

4 -

3 IV & V CS-401/501 Operating Systems 4 -

4 V CS-502 Design and Analysis of Algorithms

4 -

5 V & VI

CS-505/605 Computer Organization & Architecture

4 Digital Electronics

IT-502/602 Computer Graphics & Multimedia

4 Data Structures

IT-501/601 Software Engineering 4 Data Structures 6 VI IT-603 Computer Networks 4 Communication Engg.

7 VII CS-701 Artificial Intelligence 4 - IT-702 Computer Security 4 - CS-715 Pattern recognition 4 -

8 VIII

IT-811 Data Mining and Data warehousing

4 DBMS

CS-812 Simulation and Modeling 4 - IT-812 Management Information

System 4 -

IT-813 Software Project Management 4 - IT-814 Software Testing 4 Software Engineering IT-815 Soft Computing 4 - IT-816 E-Commerce and ERP 4 - CS-816 Natural Language Processing 4 -

Open Elective

CS-651 Computer Architecture 3 CS-650 Computer Organization &

Operating Systems 4 -

IT-750 Problem Solving Techniques & Testing

4 -

IT-851 Computer Graphics 3 N. B.: A student has to clear a minimum of 200 credits to be eligible for the B.Tech degree. This includes all the core and


17

COURSE STRUCTURE FOR B.TECH IN ELECTRICAL ENGINEERING SEMESTER-III

Theory Sl. No. Subject Code Subjects L T P Total Credit

1. MA 301 Mathematics-III 3 1 0 4 4 2. EC 301 Analog Electronic Circuits-I 3 1 0 4 4 3. EE 302 Electrical Measurements 3 1 0 4 4 4. EE 303 Electric Circuit Analysis 3 1 0 4 4 5. ME 311 Thermodynamics 3 1 0 4 4

Total Theory 20 20 Laboratories & Sessionals

1. EE 393 Electrical Circuit Lab. 0 0 3 3 2 2. EE 392 Measurement Lab. 0 0 3 3 2 3. EC 391 Analog Electronics Lab-I 0 0 3 3 2

Total Laboratories & Sessionals 9 6 Semester Total 29 26


SEMESTER-IV Theory Sl. No. Subject Code Subjects L T P Total Credit

1. HU 401 Engineering Economics 3 1 0 4 4 2. EE 301/401 Electrical Machines-I 3 1 0 4 4 3. EC 402 Digital Electronic Circuits 3 1 0 4 4 4. MA 401 Mathematics-IV 3 1 0 4 4 5. CE 406 Fluid Mechanics & Hydraulics

Machines 3 1 0 4 4

Total Theory 20 20 Laboratories & Sessionals:

1. EE 491 Electrical Machines Lab-I 0 0 3 3 2 2. EC 492 Digital Electronics Lab. 0 0 3 3 2 3. EE 492 Computational Methods Lab 0 0 3 3 1


SEMESTER-V

Theory Sl. No.

Subject Code


1. EE 404/504 Electrical Machines –II 3 1 0 4 4 2. EE 503 Electric Power Transmission & Distribution 3 1

0

4 4

3. EE 505 Electromagnetic Fields 3 1 0 4 4 4. EC 502 Microprocessors & Microcontrollers 3 1 0 4 4 5. EE 502/602 Power Electronics 3 1 0 4 4


1. EE-594 Electrical Machines Lab-II 0 0 3 3 2 2. EE-592 Power Electronics Lab. 0 0 3 3 2 3. EC-592 Microprocessor Lab. 0 0 3 3 2


18

SEMESTER-VI - ELECTRICAL ENGINEERING Theory Sl. No.

Subject Code


1. Department Elective-I/Open Elective 3 0 0 3 3 2. Department Elective-II 3 0 0 3 3 3. EC 605 Communication Engineering 3 1 0 4 4 4. EE 604 Control System-I 3 1 0 4 4 5. EE

605/805 Switch Gear & Protection 3 0 0 3 3


1. EE 694 Control Lab. 0 0 3 3 2 2. EE 695 Power System Lab. 0 0 3 3 2 3. EE 686 Power Apparatus Design 0 0 3 3 2


SEMESTER-VII - ELECTRICAL ENGINEERING

Theory Sl. No.

Subject Code


1. EE 701 Electric Drives 3 1 0 4 4 2. Department Elective-III 3 1 0 4 4 3. Department Elective-IV 3 1 0 4 4 4. Department Elective-V 3 1 0 4 4 5. Department Elective-VI 3 1 0 4 4


1. EE 791 Electric Drives Lab. 0 0 3 3 2 2. EE 781 Electrical Installation & Design 0 0 3 3 1 3. EE 782 Practical training 0 0 0 0 2 4. EE 783 Project Preparation 3 0 0 3 3


SEMESTER-VIII - ELECTRICAL ENGINEERING

Theory Sl. No.

Subject Code


1. Department Elective-VII/ Open Elective 3 0 0 3 3 2. Department Elective-VIII/ Open Elective 3 0 0 3 3 3. Department Elective-IX/ Open Elective 3 0 0 3 3 4. Department Elective-X 3 0 0 3 3 5. CH 801 Environmental Science 2 0 0 2 2


1. EE 881 Project - - - 0 5 2. EE 882 Viva voce - - - 0 2 3. EE 883 Seminar - - - 0 2


19

List of Electives offered by School of Electrical Engg.

Department Elective-I Sl.No. Subject Code Subject Name Credit

1. EE601 Electrical Engineering Materials 3

2. EE603 Power Apparatus Design 3

Department Elective-II

1. EE607 High Voltage AC & DC Transmission 3

2. EE606/706 Power Station Engineering 3

Department Elective-III

1. EE702 Advanced Power Systems 4

2. EE609/709 Power Systems Operations and Control 4

Department Elective-IV

1. EC 712 VLSI Engineering 4

2. EC 711 Analog and Digital Signal Processing 4

Department Elective-V

1. EE704 Advanced Electric Machines 4

2. EE705 Control System-II 4

Department Elective-VI

1. EE710 Advanced Power Electronics 4

2. EE707 High Voltage Engineering 4

3. EE708 Renewable energy sources 4

Department Elective-VII

1. EC606/806 Advanced Microprocessor 3

2. EE801 Modeling and Simulation 3

Department Elective-VIII

1. HU805 Industrial Management 3

2. HU804 Industrial Psychology and Behavioral science 3

3. HU803 Entrepreneurship 3

Department Elective-IX

1. EE807 Industrial Instrumentation 3

2. CS802 Data Base Management System 3

Department Elective-X

1. EE802 Utilization of Electric Power 3

2. EE804 Electric Traction 3

3. EE803 Computer Applications in Power System 3

20

List of open electives offered by School of Electrical Engineering

Sl. No.


1 III EE-302 Electrical Measurement

4 -

2 EE-301/401 Electrical Machines-I

4

3 V EE-604 Control System-I

4

4 V EE-502/602 Power Electronics 4 Basic Electronics 5 VI EE-606/706 Power Station Engineering 3 - 6 7

VII EE-708 Renewable Energy Sources 4 - EE-710 Theory of Electrical Machines 3 Electrical Science

8 VIII EE-802 Utilization of Electric Power 3 Electrical Science N. B.: A student has to clear a minimum of 200 credits to be eligible for the B.Tech degree. This includes all the core and


21

COURSE STRUCTURE FOR B.TECH IN ELECTRONICS & TELECOMMUNICATION ENGINEERING SEMESTER-III



1. MA 301 Mathematics – III 3 1 0 4 4 2. EC 301 Analog Electronic Circuits – I 3 1 0 4 4 3. EC 302 Signals & Networks 3 1 0 4 4 4. EC 303 Semiconductor Devices 3 0 0 3 3 5. EC 304/404 Measurements & Instrumentation 3 1 0 4 4 6. IT- 301 Object Oriented Programming 3 0 0 3 3


7. EC-391 Analog Electronic Circuits Lab – I 0 0 3 3 2 8. EC-392 Signals & Networks Lab 0 0 3 3 2 9. IT-391 OOPS Lab 0 0 3 3 2

Total of Practicals 9 6 Semester Total 31 28


SEMESTER-IV Theory

Sl.No Subject Code

Course Title L T P Total Credits

1. MA-401 Mathematics – IV 3 1 0 4 4 2. EC-402 Digital Electronic Circuits 3 1 0 4 4 3. EC-401 Analog Electronic Circuits – II 3 1 0 4 4 4. EC-403 Electromagnetic Theory 3 1 0 4 4 5. EC-405 Analog Communication Techniques 3 1 0 4 4 6. Institute Elective - I 3 1 0 4 4


7. EC-492 Digital Electronics Lab 0 0 3 3 2 8. EC-491 Analog Electronic Circuits Lab - II 0 0 3 3 2


SEMESTER-V Theory Sl.No Subject Code Course Title L T P Total Credits

1. EC-501 Digital Communication Techniques 3 1 0 4 4 2. EC-502 Microprocessors & Microcontrollers 3 1 0 4 4 3. EC-503 Optical & Satellite Communication 3 1 0 4 4 4. E&E-501 Control Systems 3 1 0 4 4 5. EC-504/604 Digital Signal Processing 3 1 0 4 4


6. E&E-591 Control & Instrumentation Lab 0 0 3 3 2 7. EC-595 Communication Engg. Lab 0 0 3 3 2 8. EC-592 Microprocessor Lab 0 0 3 3 2


22

SEMESTER-VI - ELECTRONICS & TELECOMMUNICATION ENGINEERING Theory

Sl.No Subject Code Course Title L T P Total Credits 1. EC-601 Antenna & Wave Propagation 3 1 0 4 4 2. EC-602 VLSI Design 3 0 0 3 3 3. CS-650 Computer Organisation & Operating

Systems 3 1 0 4 4

4. Dept. Elective –I/Open Elective 3 0 0 3 3 5. Institute Elective–II 3 0 0 3 3


6. EC-694 DSP Lab 0 0 3 3 2 7. EC-693 Design & Simulation Lab 0 0 3 3 2 8. EC-692 VLSI Lab 0 0 3 3 2


SEMESTER-VII - ELECTRONICS & TELECOMMUNICATION ENGINEERING



1. EC-701 RF & Microwave Engg. 3 1 0 4 4 2. EC-703 Computer & Communication Networks 3 1 0 4 4 3. EC-704 Wireless & Mobile Communication

Engg. 3 1 0 4 4

4. Dept. Elective – II 3 0 0 3 3 5. Dept. Elective – III 3 0 0 3 3


6. EC-792 Wireless Communication & Networking Lab

0 0 3 3 2

7. EC-791 MW & Antenna Lab 0 0 3 3 2 Total of Practicals 6 4 Sessionals

8. EC-781 Project Preparation 0 0 6 6 3 9. EC-782 Practical Training - - - - 2


SEMESTER-VIII - ELECTRONICS & TELECOMMUNICATION ENGINEERING

Theory Sl.No Subject Code Course Title L T P Total Credits

1. Dept. Elective – IV/Open Elective 3 0 0 3 3 2. Dept. Elective – V/Open Elective 3 0 0 3 3 3. Dept.l Elective – VI/Open Elective 3 0 0 3 3 4. CH-801 Environmental Science 2 0 0 2 2


5. EC-881 Project 0 0 9 9 5 6. EC-882 Seminar 0 0 3 3 2 7. EC-883 General Viva-Voce - - - - 2


23

LIST OF INSTITUTE ELECTIVES

Institute Elective – I Sl. No Subject Code Subject Name Credit 1. HU-401/501/601 Engineering Economics 4

2. HU-403/503/603 International Trade & Policy 4

3. HU-402/502/602 Public Finance 4

Institute Elective – II 1. HU-606/706/806 Entrepreneurship 3 2. HU-605 /705/805 Management Concepts & Practices 3

3. HU-304/604 Organizational Behavior 3

4. HU-611/711 Human Resource Management 3

DEPARTMENT ELECTIVES Elective-I 1. EE-612 Power Electronics Circuits 3

2. EC-606/806 Advanced Microprocessors 3

3. EC -608 Optoelectronics and photonics 3

4. EC-607/707 Adaptive Systems & Signal Processing 3

Elective-II & III 1. EC-705 Telecom Switching Networks & Protocols 3

2. EC-706 Radar & Television Engg 3

3. E&E-701 Industrial Automation & Control 3

4. EC-710 Computational Intelligence 3

5. EE-711 Advanced Topics in Power Electronics 3

6. EC-708/808 Bio-medical Instrumentation 3

7. EC-709/809 Embedded Systems 3

Elective-IV, V & VI 1. EC-805 Digital Image Processing 3

2. EC-806 Low Power VLSI 3

3. EC-810 Information Theory & Coding 3

4. EC-811 Communication & Network Security 3

5. EC-812 Advanced Topics in Communication Systems 3

6. IT – 851 Computer Graphics 3

7. EC-813 Smart Antennas 3

8. EC-814 RF MEMS 3

9. EC-815 Modern Digital Communication Techniques 3

24

List of open electives offered from School of Electronics Engineering

Sl. No.


1 III EC-301 Analog Electronic Circuits – I 4 Basic Electronics EC-302 Signals & Networks 4 Basic Electronics EC-303 Semiconductor Devices 3 Basic Electronics EC-304 Measurements & Instrumentation 4 Basic Electronics

2 IV EC-402 Digital Electronic Circuits 4 Basic Electronics EC-401 Analog Electronic Circuits – II 4 Analog Electronic

Circuits – I 3 V EC-502 Microprocessors &

Microcontrollers 4 Digital Electronic

Circuits EC-503 Optical & Satellite Communication 4 Communication

Engineering EC-504 Digital Signal Processing 4 Signals & Networks EC -505 Communication Engg 4 Basic Electronics E&E-501 Control Systems 4 Basic Electronics

4 VI EC-602

VLSI Design

3

Semiconductor Devices

EC-606/806 Advanced Microprocessors 3 Microprocessors & Microcontrollers

5 VII E&E-701 Industrial Automation & Control 3 Measurements & Instrumentation, and, Control Systems

6 VIII EC-816 Mobile Communication Engg 3 Communication Engg N. B.: A student has to clear a minimum of 200 credits to be eligible for the B.Tech degree. This includes all the core and


25

COURSE STRUCTURE FOR B.TECH IN ELECTRONICS & ELECTRICAL ENGINEERING

SEMESTER-III Theory

Sl.No. Subject Code Course Title L T P Total Credits 1. MA-301 Mathematics – III 3 1 0 4 4 2. EC-301 Analog Electronic Circuits - I 3 1 0 4 4 3. EC-302 Signals & Networks 3 1 0 4 4 4. EC-303 Semiconductor Devices 3 0 0 3 3 5. IT-301 Object Oriented Programming 3 0 0 3 3 6. EE-301/ 401 Electrical Machine - I 3 1 0 4 4


7. EC-391 Analog Electronic Circuits Lab –I 0 0 3 3 2 8. EC-392 Signals & Networks Lab 0 0 3 3 2 9. IT-391 OOPS Lab 0 0 3 3 2



SEMESTER-IV Theory

Sl.No. Subject Code Course Title L T P Total Credits 1. MA-401 Mathematics – IV 3 1 0 4 4 2. EC-402 Digital Electronic Circuits 3 1 0 4 4 3. EC-401 Analog Electronic Circuits – II 3 1 0 4 4 4. EC-403 Electromagnetic Theory 3 1 0 4 4 5. EE-404/ 504 Electrical Machine – II 3 1 0 4 4 6. EC-404/304 Measurements & Instrumentation 3 1 0 4 4


7. EC-492 Digital Electronics Lab 0 0 3 3 2 8. EE-494 Electrical Machines Lab 0 0 3 3 2


SEMESTER-V


1. EC-505 Communication Engg 3 1 0 4 4 2. EC-502 Microprocessors & Microcontrollers 3 1 0 4 4 3. E&E-501 Control Systems 3 1 0 4 4 4. EE-503 Electric Power Transmission &

Distribution 3 1 0 4 4

5. Institute Elective – I 3 1 0 4 4 Total of Theory 20 20 Practical

6. E&E-591 Control & Instrumentation Lab 0 0 3 3 2 7. EC-595 Communication Engg. Lab 0 0 3 3 2 8. EC-592 Microprocessor Lab 0 0 3 3 2


26

SEMESTER-VI - ELECTRONICS & ELECTRICAL ENGINEERING



1. EC-604/504 Digital Signal Processing 3 1 0 4 4 2. EE-602 Power Electronics 3 1 0 4 4 3. EE-609 Power System Operation & Control 3 1 0 4 4 4. Dept. Elective – I/Open Elective 3 0 0 3 3 5. Institute Elective – II 3 0 0 3 3


6. EC-694 DSP Lab 0 0 3 3 2 7. EE-692 Power Electronics Lab 0 0 3 3 2 8. EE-695 Power Systems Lab 0 0 3 3 2


SEMESTER-VII - ELECTRONICS & ELECTRICAL ENGINEERING


1. EE-701 Electric Drives 3 1 0 4 4 2. EC-703 Computer & Communication

Networks 3 1 0 4 4

3. E&E-701 Industrial Automation & Control 3 0 0 3 3 4. Dept. Elective –II/Open Elective 3 0 0 3 3 5. Dept. Elective –III/Open Elective 3 0 0 3 3


6.. EE-791 Electric Drives Lab 0 0 3 3 2 Total of Practicals 6 4 Sessionals

7. EE-784 Electrical Machine Design 0 0 3 3 2 8. E&E-781 Project Preparation 0 0 6 6 3 9. E&E-782 Practical Training - - - - 2


SEMESTER-VIII - ELECTRONICS & ELECTRICAL ENGINEERING


1. Dept. Elective –IV 3 0 0 3 3 2. Dept. Elective –V 3 0 0 3 3 3. Dept. Elective –VI/Open Elective 3 0 0 3 3 4. CH-801 Environmental Science 2 0 0 2 2


5. E&E-881 Project 0 0 9 9 5 6. E&E-882 Seminar 0 0 3 3 2 7. E&E-883 General Viva-Voce - - - - 2


27

LIST OF INSTITUTE ELECTIVES Institute Elective – I Sl. No Subject Code Subject Name Credit 1. HU-501/401 Engineering Economics 4

2. HU-503/403 International Trade & Policy 4

3. HU-502/402 Public Finance 4

Institute Elective – II 1. HU-606 Entrepreneurship 3 2. HU-605 Management Concepts & Practices 3

3. HU-304/604 Organizational Behavior 3

4. HU-611/711 Human Resource Management 3

DEPARTMENT ELECTIVES Elective-I 1. EC-602 VLSI Design 3

2. E&E-601 Advanced Control Systems 3

3. CS-651 Computer Architecture 3

4. EC-606/806 Advanced Microprocessors 3

Elective-II 1. EC-712 Modern Optical Communication 3

2. EC-706 Radar & Television Engg 3

3. EC-710 Computational Intelligence 3

4. EC-705 Telecom Switching, Networks & Protocols 3

Elective-III 1. EE-711 Advanced topics in Power Electronics 3

2. EE-706 Power Station Engg 3

3. EC-707/607 Adaptive Systems & Signal Processing 3

4. EE-712 Non-conventional Energy Sources 3

Elective-IV, V & VI 1. EE-805 Switch Gear & Protection 3 2. EE-809 Theory of High Voltage Engg 3 3. EE-803 Computer Application in Power Systems 3 4. EE-810 FACTs (Flexible AC Transmission Systems) 3 5. EC-816 Mobile Communication Engg 3 6. EC-805 Digital Image Processing 3 7. EC-809/709 Embedded Systems 3 8. EC-808/708 Bio-medical Instrumentation 3

28

List of open electives offered from School of Electronics Engineering

Sl. No.


1 III EC-301 Analog Electronic Circuits – I 4 Basic Electronics EC-302 Signals & Networks 4 Basic Electronics EC-303 Semiconductor Devices 3 Basic Electronics EC-304 Measurements & Instrumentation 4 Basic Electronics

2 IV EC-402 Digital Electronic Circuits 4 Basic Electronics EC-401 Analog Electronic Circuits – II 4 Analog Electronic

Circuits – I 3 V EC-502 Microprocessors &

Microcontrollers 4 Digital Electronic

Circuits EC-503 Optical & Satellite

Communication 4 Communication

Engineering EC-504 Digital Signal Processing 4 Signals & Networks EC -505 Communication Engg 4 Basic Electronics E&E-501 Control Systems 4 Basic Electronics

4 VI EC-602 VLSI Design 3

Semiconductor Devices

EC-606/806 Advanced Microprocessors 3 Microprocessors & Microcontrollers

5 VII E&E-701 Industrial Automation & Control 3 Measurements & Instrumentation, and, Control Systems

6 VIII EC-816 Mobile Communication Engg 3 Communication Engg N. B.: A student has to clear a minimum of 200 credits to be eligible for the B.Tech degree. This includes all the core and


29

COURSE STRUCTURE FOR B.TECH IN MECHANICAL ENGINEERING SEMESTER-III

Theory Sl No. Course Code Subject L T P Total Credit

1 ME-301 Engineering Thermodynamics-I 3 0 0 3 3 2 ME-302 Engineering Metallurgy 3 0 0 3 3 3 ME-303 Mechanics of Materials-I 3 1 0 4 4 4 ME-304 Fluid Mechanics 3 1 0 4 4 5 MA-301 Mathematics-III 3 1 0 4 4 6 HU-304 Organizational Behavior 3 0 0 3 3


1 ME-391 Fluid Mechanics Lab 0 0 2 2 1 2 ME-392 Material testing Lab 0 0 2 2 1

Total of Practical 4 2 Sessional

1. ME-381 Machine Drawing 0 0 3 3 1 2. ME-382 Manufacturing Processes - I 0 0 3 3 1

Total of Sessional 6 2 Semester Total 31 25


SEMESTER-IV


1 ME-401 Engineering Thermodynamics-II 3 0 0 3 3 2 ME-402 Manufacturing Technology-I 3 0 0 3 3 3 ME-403 Mechanics of Materials-II 3 1 0 4 4 4 ME-404 Machine Dynamics-I 3 1 0 4 4 5 MA-402 Numerical Methods 3 1 0 4 4 6 EE-403 Electrical Machines 3 0 0 3 3


1 ME-491 Applied Mechanics Lab 0 0 2 2 1 2 EE-493 Electrical Machines Lab 0 0 3 3 2


1 ME-481 CAD Lab 0 0 2 2 1 2 ME-482 Manufacturing Processes - II 0 0 3 3 1


30

SEMESTER-V - MECHANICAL ENGINEERING

Theory

Sl No. Course Code Subject L T P Total Credit

1 ME-501 Heat Transfer 3 1 0 4 4 2 ME-502 Manufacturing Technology-II 3 0 0 3 3 3 ME-503 Design of Machine Elements-I 3 0 0 3 3 4 ME-504 Machine Dynamics-II 3 1 0 4 4 5 ME-505 Mechanical Measurements & Control 3 0 0 3 3 6 ME-506 Metrology, Quality Assurance &

Reliability 3 0 0 3 3


1 ME-591 Heat Transfer Lab. 2 2 1 2 ME-592 Measurement & Instrumentation Lab. 2 2 1 3 ME-593 Machine Dynamics Lab. 3 3 1

Total of Practical 7 3 Sessional 1 ME-581 Design of Machine Elements -I 3 3 2 Total of Sessional 3 2 Semester Total 30 25

SEMESTER-VI - MECHANICAL ENGINEERING


1 ME-601 Internal Combustion Engine & Gas Turbine

3 0 0 3 3

2 ME-602 Metal Cutting & Tool Design 3 1 0 4 4 3 ME-603 Design of Machine Elements-II 3 0 0 3 3 4 ME-604 Fluid Dynamics & Hydraulic Machines 3 1 0 4 4 5 ME-605 Advance Manufacturing Processes 3 0 0 3 3 6 Department Elective-I/Open elective 3 0 0 3 3 Total of Theory 20 20 Practical 1 ME-691 Hydraulic Machines Lab. 0 0 2 2 1 2 ME-692 IC Engine Lab 0 0 2 2 1 Total of Practical 4 2 Sessional 1 ME-681 Design of Machine Elements- II 0 0 3 3 2 2 ME-682 Metal Cutting & Tool Design 0 0 3 3 2 Total of Sessional 6 4 Semester Total 30 26

31

SEMESTER-VII - MECHANICAL ENGINEERING

Theory

Sl No. Course Code Subject L T P Total Credit

1 ME-701 Refrigeration & Air Conditioning 3 0 0 3 3 2 ME-702 Operations Research 3 0 0 3 3 3 ME-703 Automobile Engineering 3 0 0 3 3 4 Department Elective-II 3 0 0 3 3 5 Department Elective-III/Open Elective 3 0 0 3 3


1 ME-791 Refrigeration & Air Conditioning Lab. 2 2 1 2 ME-792 Modeling & Simulation Lab 2 2 1


1 ME-781 Seminar 2 2 1 2 ME-782 System Design Project 6 6 3 3 ME-783 Practical Training 2


SEMESTER-VIII - MECHANICAL ENGINEERING


1 ME-801 Robotics & Flexible Manufacturing System

3 0 0 3 3

2 CH-801 Environmental Science 2 0 0 2 2 3 HU-801 Engineering Economics 3 1 0 4 4 4 Department Elective-IV/Open Elective 3 0 0 3 3 5 Department Elective-V/ Open Elective 3 0 0 3 3


1 ME-891 Computer Integrated Manufacturing Lab.

2 2 1


1 ME-881 Seminar 2 2 1 2 ME-882 Project 9 9 5 3 ME-883 Comprehensive Viva 2


32

ELECTIVES OFFERED BY SCHOOL OF MECHANICAL ENGG.

Department Elective-I Sl. No Subject Code Subject Name Credit

1. ME-610 Industrial Safety 3

2. ME-611 Total Quality Management 3

3. ME-612 Competitive Manufacturing Strategies 3

4. ME-613 Industrial Engg & Industrial Management 3

Department Elective-II

1. ME-705 Tribology 3

2. ME-706 Mechanical Vibrations and Noise Engineering 3

3. ME-707 Power Plant Engineering 3

4. ME-708 Finite Element Method 3

Department Elective-III

1. ME-710 Gas Dynamics & Jet Propulsion 3

2. ME-711 Machine Tools Technology 3

3. ME-712 Introduction to Composite Materials 3

4. ME-713 Modeling & Simulations 3

Department Elective-IV

1. ME-808 Mechatronics 3

2. ME-809 Production Planning & Control 3

3. ME-810 Machine Maintenance & Condition Monitoring 3

4. ME-811 Fundamentals of CFD 3

Department Elective-V

1. ME-812 Materials Management 3

2. ME-813 Computer Integrated Manufacturing 3

3. ME-814 Fundamental Engineering Optimization 3

4. ME-815 Advanced Material Processing Technology 3

33

List of open electives offered by School of Mechanical Engineering

Sl. No. Semester Course code Subjects Credit Pre-requisite

1 III ME-301 Engineering Thermodynamics-I 3 - ME-302 Engineering Metallurgy 3 - ME-304 Fluid Mechanics 3 -

2 IV ME-401 Engineering Thermodynamics-II 3 Engg.Thermodynamics-I ME-402 Manufacturing Technology-I 3 - ME-481 CAD Lab 1 -

3 V ME-502 Manufacturing Technology-II 3 Manufacturing Technology-I

ME-505 Mechanical Measurements 3 - ME-506 Metrology, Quality Assurance &

Reliability 3 -

4 VI ME-601 ICEGT 3 Engg.Thermodynamics-I ME-604 Fluid Dynamics & Hydraulic

Machines 4 Fluid Mechanics

ME-613 Industrial Engineering & Industrial Management

3 -

5 VII ME-701 Refrigeration & Air Conditioning 3 Engg.Thermodynamics-I

ME-709 Finite Element Analysis 3 - ME-703 Automobile Engineering 3 -

6 VIII ME-801 Robotics & Flexible Manufacturing System

3 -

N. B.: A student has to clear a minimum of 200 credits to be eligible for the B.Tech degree. This includes all the core and


34

List of open Electives offered by various Schools

School of Civil Engg.

School of Computer Engg.

School of Electrical Engg.

School of Electronics Engg.

School of Mech. Engg.

Solid Mechanics ( CE-301)

Data Structures & Algorithms (CS-301)

Electrical Measurement

(EE-302)

Analog Electronic Circuits – I (EC-301)

Engg.Thermodynamics-I (ME-301)

Fluid Mechanics-I (CE-302)

Object Oriented Programming

(IT-301)

Electrical Machines-I

(EE-301/401)

Signals & Networks (EC-302)

Engineering Metallurgy (ME-302)

Civil Engg. Materials & Construction(CE-304)

Database Management Systems

(CS-402)

Control System-I (EE-504/604)

Semiconductor Devices(EC-303)

Fluid Mechanics (ME-304)

Fluid Mechanics-II (CE-401)

Operating Systems (CS-401/501)

Power Electronics (EE-502/602)

Measurements & Instrumentation

(EC-304)

Engg. Thermodynamics-II (ME-401)

Transportation Engg.-I (CE-403)

Design and Analysis of Algorithms

(CS-502)

Power Station Engineering

(EE-606/806)

Digital Electronic Circuits

(EC-402)

Manufacturing Technology-I

(ME-402) Environmental

Engineering (CE-404)

Computer Organization &

Architecture (CS-505/605)

Renewable Energy Sources

(EE-708)

Analog Electronic Circuits – II (EC-401)

CAD Lab (ME-481)

Geotechnical Engineering-I

(CE-501)

Computer Graphics & Multimedia

(IT-502/602)

Theory of Electrical Machines (EE-710)

Microprocessor & Microcontroller

(EC-502)

Manufacturing Technology-II

(ME-502)

Water Resources Engineering-I

(CE-503)

Software Engineering (IT-501/601)

Utilization of Electric Power

(EE-802)

Optical & Satellite Communication

(EC-503)

Mechanical Measurements

(ME-505) Water & Waste Water

Engg. (CE-505)

Computer Networks (IT-603)

Digital Signal Processing (EC-504)

Metrology, Quality Assurance & Reliability

(ME-506) Geotechnical

Engineering-II (CE-601)

Computer Organization &

Operating Systems (CS-650)

Communication Engg

(EC-505)

Internal Combustion Engine & Gas Turbine

(ME-601)

Water Resources Engineering-II

(CE-602)

Artificial Intelligence (CS-701)

Control Systems (E&E-501)

Fluid Dynamics & Hydraulic Machines

(ME-604) Transportation Engg.-II

(CE-702) Problem Solving

Techniques & Testing (IT-750)

VLSI Design (EC-602)

Industrial Engineering & Industrial Management

(ME-613) Disaster Management

(CE-732) Computer Security

(IT-702) Advanced

Microprocessors (EC-606/806)

Refrigeration & Air Conditioning

(ME-701) Remote Sensing & GIS

(CE-724) Soft Computing

(IT-815) Industrial

Automation & Control(E&E-701)

Finite Element Analysis (ME-709)

Environmental Impact Assessment & Auditing

(CE-831)

Management Information System

(IT-812)

Mobile Communication Engg(EC-816)

Automobile Engineering (ME-703)

Groundwater Hydrology (CE-721)

Pattern recognition (CS-715)

Robotics & Flexible Manufacturing System

(ME-801)

35

Continue the List of open Electives offered by various Schools Software Project

Management (IT-813)

Simulation and Modeling (CS-812)

E-Commerce (IT-816)

Software Testing (IT-814)

Natural Language Processing (CS-816)

Data Mining and Data warehousing

(IT-811)

36

PHYSICS COURSES

PH –101 Physics-1 CR-3 Theory of Relativity Frames of reference, Galilean transformation, postulates, Lorentz transformation of space and time, length contraction, addition of velocities, time dilation, variation of mass with velocity, equivalence of mass and energy. Thermodynamics Thermodynamic Processes, variables, internal energy, Enthalpy, Entropy, Gibb’s free energy, T-S diagram, Carnot cycle, Maxwell’s thermodynamic relations. Interference Conditions for interference, Interference by division of amplitude, Thin films, colours in thin films, Newton’s rings, applications. Diffraction Types of diffraction, Fraunhoffer diffraction at single slit, Plane transmission grating, determination of wavelength of light. Lasers Spontaneous and stimulated emission, Einstein’s coefficients, population inversion, pumping, Ruby and Gas lasers, applications. Superconductivity Transition temperature, critical magnetic field, Meissner’s effect, Type-I and Type-II superconductors, applications.

PH-201 Physics-II CR-3 Fundamentals of electromagnetic theory Vector Calculus, Elementary ideas of gradient, divergence and curl of a vector, Gauss’ divergence theorem, Stoke’s theorem (statements only). Gauss’ law of electrostatics, Ampere’s circuital law, displacement current, Faraday’s laws of electromagnetic induction. Maxwell’s electromagnetic equations in differential and integral form, electromagnetic wave equation, plane wave solution for free space, scalar and vector potentials. Quantum physics Particle nature of radiation, Blackbody radiation, Photoelectric effect, Compton scattering. Dual nature of matter, de–Broglie’s hypothesis, Matter waves, Group velocity and Phase velocity, uncertainty relation, Schrodinger’s wave equation (time independent and time dependent), wave function and its physical interpretation, one dimensional problems involving particle in a box of infinite height, Potential step, Potential barrier and tunneling. Optical Fiber Principles and types, numerical aperture, applications, optical detector Science of nanomaterials Introduction to nanomaterials, basic principles of nanoscience and nanotechnology, fabrication of nanomaterials, properties of nanomaterials, carbon nanotubes, applications of nanotechnology. Text Books

1. Modern Engineering Physics – A.S.Vasudeva – S.Chand 2. Concepts of Modern Physics – A.Beiser-TMH 3. Elements of electromagnetic – S.P.Seth- Dhanpat Rai Publications

Reference Books 1. Engineering physics – Gaur & Gupta – Dhanpat Rai Publications 2. Text Book of Optics – Jenkins & White – MGH 3. Introduction to electrodynamics- D. J. Griffith – Pearson 4. Elements of electromagnetics – M N O Sadiku – Oxford Univ. Press 5. Quantum Physics – S. Gasiorowicz – John Wilky

37

CHEMISTRY COURSE CH-101/201 Chemistry CR-4 Structure & Bonding

Failure of classical mechanics, uncertainty principle, wave nature of particles, Schrodinger equation (need not be derived), interpretation of wave functions, Molecular Orbital theory of diatomic molecules and metallic bonding.

Kinectics & catalysis

Theories of reaction rate: Collision theory and Absolute Reaction rate theory, Kinetics of zero, 1st & 2nd order reactions, theory of catalysis, homogeneous and heterogeneous catalysis.

Spectroscopy

Interaction and relation with matter, fundamentals of all kinds of spectroscopy, UV-VIS and IR spectroscopy, basic concept of selection rule, calculation of max and applications to molecular structure determination.

Coordination chemistry

Coordination compounds and its basic idea, bonding: VBT & CFT. Applications of CFT.

Organic reaction mechanism

Nucleophilic substitution reaction, electrophilic aromatic substitution, electrophilic and free radical addition reactions, nucleophilic addition reaction to carbonyl groups, Organometallic Compounds, study of selected organic reactions and their mechanism with reference to Organometallic Compounds

Electrochemistry

Electrochemical cell, electrode potential, emf, Nernst equation and applications, commercial cells: dry cell, secondary cell & fuel cell, corrosion and its control.

Nanomaterials

Introduction to nano materials, Graphite, fullerenes, carbon nanotubes, nanowires, nanocones, Haeckelites. Applications of nano materials in:

i) Medicine ii) Catalysis iii) Environmental Technologies

Text Books

1. Engineering Chemistry –P.C. Jain & M. Jain, Dhanpat Rai Publishing Company

2. Elementary Organic Spectroscopy- Y. R. Sharma, S. Chand Company.

Reference Books

1. Physical Chemistry : P.C. Rakishit

2. Physical Chemistry : S.Glasstone

3. Physical Chemistry: Puri,Sharma and Pathania

4. Physical Chemistry: O.P.Agarwal

5. Modern Inorganic Chemistry: R.D.Madan

6. Concise Inorganic Chemistry: J.D.Lee

7. Reaction Mechanism: Mukherjee and Singh

8. Spectroscopy: Silverstein

9. Nanotechnology – Mark Ratner and Daniel Ratner (Publisher -Pearson Education)

38

CH-801 Environmental Science CR-2 Overview on Environment: Introduction, Chemical composition and components of earth and atmosphere.

Air pollution: Natural and anthropogenic sources of atmospheric pollutants, significance of these pollutants and their reactions in atmosphere, controlling measures, some important atmospheric phenomena such as green house effect, ozone layer depletion and acid rain.

Water pollution: Types, sources and consequences of water pollution, chemical analysis of water quality parameters, sewage and waste water treatment, controlling measures.

Waste management: Sources and generation of solid wastes, their nature and chemical composition, characterization and classification of solid wastes, management of solid wastes.

Biochemical effect of some pollutants: Biochemical pathways and toxic effects of some toxic metals like Pb, Cd, Hg and As, radioactive and bio-medical wastes.

Environmental impact assessment: Origin, development and its management.

Text Books:

1. Environmental Chemistry: A.K. De, New Age International

Reference Books:

1. Environmental Chemistry: P.S Sindhu, New Age International

2. A Text Book of Environmental Studies: Environmental Sciences, Gurdeep R. Chatwal and Harish Sharma, Himalaya

MATHEMATICS COURSES

MA-101 Mathematics –I CR-4 Differential Calculus (Two and Three variables)

Taylor’s Theorem, Maxima and Minima and Lagrange’s multipliers

First Order ODE

Basic concepts and definitions of 1st order differential equations; Formation of differential equations; solution of differential equations: variable separable method, homogeneous, equations reducible to homogeneous form, exact differential equation, equations reducible to exact form, linear differential equation, equations reducible to linear form (Bernoulli’s equation); orthogonal trajectories and their applications. Solutions of differential equations by using Picards Iteration Method.

Linear Differential equations of 2nd and higher order

Second order linear homogeneous equations with constant coefficient; differential operators; solution of homogeneous equations; Euler-Cauchy equation; linear dependence and independence; Wronskian; existence and uniqueness theory, solution of non-homogeneous equations: general solution, complementary function, particular integral; solution by variation of parameters; undetermined coefficients; higher order linear homogeneous equations; applications in electrical circuits.

Matrices, determinants, linear system of equations

Basic concepts of algebra of matrices; types of matrices; Vector Space, Sub-space, Basis and dimension, linear system of equations; consistency of linear systems; rank of matrix; Gauss elimination; inverse of a matrix by Gauss Jordan method; linear dependence and independence, linear transformation; inverse transformation, partitioning of matrices; applications of matrices; determinants; Cramer’s rule;

Matrix-Eigen value problems

Eigen values, eigen vectors, Cayley Hamilton theorem, basis, complex matrices; quadratic form; Hermitian, Skew-Hermitian forms; similar matrices; diagonalization of matrices; transformation of forms to principal axis (conic section).

39

Text Books

1. Kreyszig E., Advanced Engineering Mathematics ,Wiely & Sons ,8th edition.

Reference Books:

1. Grewal B.S., Higher Engineering Mathematics, Khanna Publishers

2. Dass H.K., Introduction to engineering Mathematics, S.Chand & Co Ltd.

3. Ramana B.V., Higher Engineering Mathematics, TMH

MA-201 Mathematics – II CR-4 Series Solution of Differential Equations Power series; radius of convergence, power series method, Frobenious method; Special functions: Gamma function, Beta function; Bessel’s and Legendre’s equations; Bessel’s function, Legendre’s function, orthogonal functions; generating functions. Sturm-Lioville Problems. Transforms Laplace Transform, Inverse Laplace Transform, Linearity, transform of derivatives and Integrals, Unit Step function, Second Shifting theorem, Differentiation and Integration of Transforms, Convolution, Integral Equation, Application to solve differential and integral equations, Systems of differential equations Fourier series, Integrals and Transforms Periodic functions, Even and Odd functions, Fourier series, Half Range Expansion, Fourier Integrals, Fourier sine and cosine transforms, Fourier Transform Vector Differential Calculus Vector Algebra, Dot and Cross Product, Vector and Scalar functions and fields, Derivatives, Gradient of a scalar field, Directional derivative, Divergence of a vector field, Curl of a vector field. Vector Integral Calculus Line integral, Double Integral, Green’s theorem, Surface Integral, Triple Integral, Divergence Theorem for Gauss, Stoke’s Theorem Text books

1. Kreyszig E., Advanced Engineering Mathematics ,Wiely & Sons ,8th edition. Reference Books

1. Grewal B.S., Higher Engineering Mathematics, Khanna Publishers 2. Dass H.K., Introduction to engineering Mathematics, S.Chand & Co Ltd. 3. Ramana B.V., Higher Engineering Mathematics, TMH

MA-301 Mathematics-III CR-4 Partial Differential Equation

Basic concepts, Solution of PDE by Variable Separable method, Solution of one dimensional Wave equation, Classification of PDE and transformation into its Normal form, D’Alembert’s solution of Wave equation, Solution of one dimensional Heat equation, Steady state flow of heat in a rectangular bar, Solution of one dimensional heat equation by Fourier Integral, Solution of 2 dimensional wave equation, Laplace Equation in Polar, Cylindrical and Spherical coordinates,. Solution of PDE by use of Laplace Transform.

Complex Analysis

Basic concept and operations of complex number, complex plane, polar form, Roots, Derivatives, Analyticity, Cauchy Riemman equations, Conformal mapping, Exponential, Trigonometric, hyperbolic, Logarithmic functions, general powers, Bilinear transformation. Line integral, Line Integral of independent path, Cauchy’s integral theorem, Cauchy’s integral formula, Derivatives of analytic function. Taylor’s series, Maclaurin’s series, Laurent’s series, Expansion of functions, singularities, Residues, Residue Integration method, Evaluation of Real Integrals.

Text Books: Advanced Engineering Mathematics by Erwin Kryeszig, John Wiley & Sons, INC.

Reference Books: Higher Engineering Mathematics by B. V. Ramanna, TMH

40

MA-302 Discrete Mathematical Structure CR- 4 Logic Proposition, Truth values, Connectives, Logical equivalence of composite statement (using truth table & without truth table), Predicates and Quantifiers, Rules of Inference, Methods of Induction. Set, Relation & Function Set, Operations on set, Principles of Inclusion and Exclusion, Relation, Types of relations, Properties on Binary Relation, Equivalence relation, partial ordering, relation, Hasse diagram, Lattice, Definition of function, Injection, Bijection, Surjection, Permutation function. Recurrence Relation and other solutions. Discrete numeric function and other manipulation, Generating Function, Concept of Recurrence Relation with constant coefficients, Solution of Recurrence Relation.(Direct Method and by using generating function). Group and Ring Concept of binary operations, Algebraic structures, Semigroup, monoid, Group, Abelian group with examples. Properties of groups, Cyclic groups and its generator, Sub group, Normal subgroup, cosets, Lagrange’s Theorem, ring, field, Integral domain (Definition with examples),Homomorphism and Isomorphism Graph Theory Basic Terminology, Types, Isomorphic Test, Adjacency & Incident Matrix, Paths, Circuit, shortest path Algorithms (Dijkstra),Tree, Rooted Tree, Binary Tree, spanning tree, cut set, MST Algorithms.(PRIM & KRUSKHAL), Planar Graph Boolean Algebra Lattices and Algebraic system, principles of duality law, Basic properties, Boolean function and Boolean Expressions, DNF & CNF. Text Book: Discrete Mathematical Structure, PHI by Kolman, Busby & Ross Reference Book: Elements of Discrete Mathematics, TMH By-C.L. Liu

MA-401 Mathematics-IV CR- 4 Numerical Solution of non-linear equations Error in approximation, Solutions of equations by Bisection Method, Newton Raphson Method, Fixed Point iteration method, Regula falsi and Secant Method, rate of Convergence. Interpolation & Approximation Finite Difference, Operators and their Relationships. Interpolation, interpolating polynomial by Lagrange, Newton’s divided difference, Newton’s forward and backward difference. Fitting of curves by least square method Numerical Differentiation and Integration Numerical Differentiation of 1st and 2nd order using difference table. Numerical Integration Trapezoidal rule, Simpson’s 1/3rd & 3/8th rules, Gauss-Legendre 2 points & 3 points formula, Error. Numerical solution of ODE Taylor series method, Euler’s method, Modified Euler’s method, Runge-Kutta method of order 2&4, Reduction of second order ODE to 1st order ODE and its numerical solution by R.K. Method of order-4. Probability and Statistics: Introduction to Probability, random variables and Probability Distribution, mean and Variance of probability distribution, mathematical expectation, moments and moment generating function, binomial distribution, Poisson and Hypergeometric distribution, Normal Distribution, Correlation Coefficient Solution of system of linear equations by Gauss Seidel and Gauss Jacobi Methods, LU factorization. Eigen value and Eigen vector of matrices by numerical methods Text Book: Advanced Engineering Mathematics by Erwin Kryeszig, John Wiley & Sons, INC. Reference Books: Higher Engineering Mathematics by B. V. Ramanna, TMH

41

MA-402 Numerical Methods CR- 4 Numerical Solution of non-linear equations

Error in approximation, Solutions of equations by Bisection Method, Newton Raphson Method, Fixed Point iteration method, Regula falsi and Secant Method, rate of Convergence.

Interpolation & Approximation

Finite Difference , Operators and their Relationships. Interpolation, interpolating polynomial by Lagrange, Newton’s divided difference, Newton’s forward and backward difference. Fitting of curves by least square method

Numerical Differentiation and Integration

Numerical Differentiation of 1st and 2nd order using difference table.

Numerical Integration, Trapezoidal rule, Simpson’s 1/3rd & 3/8th rules, Gauss-Legendre 2 points & 3 points formula, Error.

Numerical solution of ODE

Taylor series method, Euler’s method, Modified Euler’s method, Runge-Kutta method of order 2&4, Reduction of second order ODE to 1st order ODE and its numerical solution by R.K. Method of order-4.

Numerical Solution of Partial Differential Equation

Finite difference approximations of derivatives, Numerical solution of Laplace’s equation by 5 point formula, Numerical solution of parabolic P.D.E by Crank- Nicolson Method & Explicit Schmidt’s method

Text Book: Numerical Methods in Science & Engineering by S.Rajasekhar, S. Chand Publishers

Reference Book: Numerical Methods, S. Arumugam, A. Thangapandi Isaac, & A. Somasundaram by Scitech Publishers

HUMANITIES COURSES

HU-101/201 Professional Communication CR-3 Overview of Communication

Concept, Meaning & Process of Communication; Methods, Channels & Barriers of Communication; Skills of Communication (LSRW Technique); Bias-free & Plain English

Fundamentals of Grammar & Phonetics

Time & Tense, Types of Verbs; Transformation of Sentences; Basic Sounds of English, Stress & Intonation

Written Communication & Analysis

Principles of Effective Writing; Writing Business Letters; Writing Short Technical Reports

Effective Oral Communication & Analysis

Group Discussion Strategies; Meetings- Preparing Agenda & Conducting Meeting & Writing Minutes; Job Interview

Text Books

1. Effective Technical Communication. M. Ashraf Rizvi, TMH Publication

2. Technical Communication Principle & Practice. Minakshi Raman & Sangeeta Sharma, OUP

Reference Books

1. Speaking and Writing for Effective Business Communication. Francis Soundaryaraj,

Macmillan India.

2. Communicative Grammar. Geoffrey Leech & Jan Svartvik, Longman London

3. Business Communication. S.M. Rai and Urmila Rai, Himalaya Publication, Mumbai

42

HU-304/604 Organisational Behaviour CR-3 UNIT -I-Introduction To Organisation and Organisational Behaviour-Meaning and definition of organisation, features and principles of organisation, organisation structures and nature of organisation behaviour.

UNIT-2- Personality-Meaning of personality, Personality Development, Determinants of personality Application of personality in the organisational level. Motivation-Concept of motivation, motivation and behaviour, Theories of motivation, Need theory, Hygiene theory, Theory X and Theory Y, Elements of sound motivational system, Motivation in Indian organisation.

UNIT-3- Leadership-Meaning, Theory of leadership, Trait theory, Behavioural theory, Leadership styles, Leadership in Indian organisation. Group Dynamics-Concept of Group Dynamic, Types of Group, Group Behaviour, Group Decisions, Techniques to improve group decision.

UNIT-4-Organisational Change-Meaning and Nature of organisational change, Factor of organisation change, Resistance to change, Factors in resistance, Overcoming resistance to change, Organisational Develoment-Concept, Objectives and process of organisation development.

Text Books:

1. Organisational Behaviour By L. M. Prasad (Sultan Chand & Sons) 2. Essentials of Organisational Behaviour By Raibbins (PHI Ltd.) 3. Organisational Behaviour By Arun Kumar and N. Meenakshi (Vikas Publishing House)

HU-401/501/601/701/801 Engineering Economics CR-4 UNIT I-Introduction to economics and Engineering Economics. Basic concepts of Economics: Demand Analysis, Supply analysis, Market Equilibrium. Revenue Analysis. Demand Forecasting-Qualitative and Quantitative methods.

UNIT-II-Production and Cost Analysis: Short Run and Long Run Production Functions, Producer’s Equilibrium condition. Cobb –Douglas Production Function. Cost Concepts: Short Run and Long run Cost curves, Break-Even Analysis, Market: Perfect Competition , Monopoly ,Discriminating monopolist.

UNIT III-Time Value of money, Interest Formulas and their applications. Evaluation of Investment proposals--Present Worth method of comparison, Future worth method of comparison, Annual Equivalent Method of comparison. Economic Appraisal Technique-Net Present Value,-Rate of Return,Cost Benefit analysis.

UNIT –IV-Depreciation and Income Tax consideration. Replacement Analysis, Inventory control.Make or Buy Decision. Project management.

UNIT –V-Money Banking: Functions of commercial banks, Inflation. Money market and Capital market. Business cycle and Business policies. National Income accounting. Saving and Investment Theories, Theories of Interest-IS and LM function.

Reference Books: 1. Engineering Economics-James L. Riggs, David D. Bedworth, and Sabah U .Randhawa. 2. Engineering Economics –R Panneerselvam. 3. Managerial Economics- H.L. Ahuja. 4. Managerial Economics-Theory and Applications- D.M.Mithani 5. Money Banking-S.B. Gupta 6. Macro-Economics-R.D. Gupta

HU402/502/602 Public Finance CR-4 UNIT I - Introduction- Definition and scope of Public Finance, Difference between public finance and private Finance, Public goods, Private goods and their characteristics, Market Failure, Merit goods, Mixed goods, Externalities and the role of Government; Tax subsidy Analysis, Principle of Maximum Social advantage.

UNIT II- Public Expenditure- Meaning, Classification and canons of public expenditure, Causes of Growth of public Expenditure, Effects of Public Expenditure on production, distribution and economic stability. Wagner’s law of Increasing State activities, Peacock-Wiseman hypothesis.Trends of Public Expenditure in India.

43

UNIT III- Public Revenue-Sources of Public Revenue, Effects of tax on production, Distribution and economic activities. Principles of Taxation-Benefit theory, Ability –to-Pay Theory, Subjective and Objective Approaches, Direct and Indirect taxes, Neutrality in taxation. Allocative and Equity aspects of income tax and commodity taxes, Theory of optimal taxation, Excess Burden of taxes, Tradeoff between equity and efficiency. The problem of double taxation. Shifting and Incidence of taxation: Forward and Backward shifting, Tax Capitalisation, Incidence of commodity taxes and income tax, VAT, Features of the Indian Tax system.

UNIT IV-Public debt- Sources of Public borrowing, Effects of Public Debts, Importance of public borrowings. Tax vs public debt, Burden of Public Debt, Shifting of Debt burden, Methods of debt redemption.

UNIT V -Budget- Concept of Budget-Balanced and Unbalanced budget. Concept of deficit-Revenue, Budgetary, Fiscal and Primary deficit, Budget as an instrument of economic policy, Deficit Financing and its Limitations. Fiscal Policy- Its related problems. Fiscal sector reforms in India.

Reference Books:

1. Public Finance-B.P. Tyagi.

2. Public Finance-D.N. Mithani.

3. Public Finance and policy: Musgrave and Musgrave.

4. Modern public Finance-B.P. Herber.

5. Government Finance-Due and Frendler

HU-403/503/603 International Trade and Policies CR-4 UNIT I-The importance of International Trade (with emphasis on its significance in the present era of globalisation), measurement of Gains from Trade and their distribution. Theories of International Trade- Absolute and Comparative cost advantage theories, application of opportunity costs, Heckscher –Ohlin Theorem; its empirical Relevance, Leontif Paradox.

UNIT II-Concept of Balance of Trade and Balance of Payments, Causes of Disequilibrium, Measures to correct Disequilibrium(both monetary and non-monetary methods) and their relative merits and demerits, Free Trade vs Protection,

UNIT III-Foreign Exchange-Demand for and Supply of Foreign exchange , Fixed vs. Flexible exchange rate, Rise and Fall of Gold Standard, Theories of exchange rate determination-Mint Parity Theory, Purchasing Power Parity Theory, Balance of Payments Theory; The Brettonwoods system/IMF.

UNIT IV-Concept of Terms of trade, Theories of Terms of Trade, Prebisch and Singer Theory, Economic effects of Tariff on National Income , Terms of Trade and Income Distribution, Effects of Quotas, Effective rate of Protection. Forms of economic co-operation-Theory of Custom Union.

UNIT V-Changing structure of India’s foreign trade since Independence; composition and Direction of India’s Foreign Trade, Trends in India’s Balance of Payments, Export Promotion and Import Substitution Strategy. GATT/WTO,TRIPS and TRIMS, FERA and FEMA.

Text Books:

1. International Economics:Bo Sodersten, Mc Millan,1991.I

2. International Trade- Selected Readings:J Bhagawati(Ed):Cambridge University Press,1981.

3. International Economics:C.P. Kindleberger:R.D Irwin:1973.

4. International Economics:D Salvatore:Prentice Hall: 1997.

5. Indian Economy:Ruddar Datt and K.P.M. Sundaram

HU-605/705/805 Management Concepts and Practices CR-3 UNIT-I-Introduction to Management, Meaning and Nature, Development of Management Thought-Contribution of Taylor and Behavioral Scientists of Management. UNIT-II-Marketing: Identifying Market segements and selecting target markets, product policy and design, designing pricing strategies. Mangaing Retailing and wholeselling, Advertising and sales promotion. UNIT-III-Finance- Introduction, Scope & Functions statement of Financial information Ratio analysis, Capital budgeting decision.

44

UNIT-IV-Operations planning and control, systems and procedure of inventory management strategy: Firm and its environment, process of strategic planning. Text Book: 1. Principles & Practices of Management by VSP Rao and P.S. Narayan Books for Reference: 1. Principles & Practices of Management by L.M. Prasad 2. A Framework for Marketing Management-Philip Kotler 3. Financial Management- I.M. Panday. 4. Production and Operations Management-Everett E. Adam Jr.Ronald J. Ebert.

HU-606/706/806 Entrepreneurship CR-3 UNIT-I-New Industrial Policy of 1991, Meaning and Definition of entrepreneurship, Incentives and benefits available to SSI Units and New Entrepreneurs. Dearth of entrepreneurial talent in India, Growth of SSIs in India. Procedures to start SSIs.

UNIT-II-Market survey and research pricing and techniques, Distribution Channel, Sales promotion activities. Raising Finance and enterprise launching.

UNIT-III-Financial Management, Working Capital Management, Costing, Book Keeping, Break-Even-Analysis.

UNIT-IV-Preliminary Project Report(PPR), Detailed Project Report(DPR),Taxation: Income Tax, Excise duty, Sales tax and VAT.

UNIT-V-Decision making-Types, Forecasting-Qualitative and Quantitative methods, Personnel Management, Motivation and theories of motivation.

Text Book:

1. Entrepreneurial Development. by S.S. Khanka. S.Chand & Co.

Reference Books:

1. Industrial Organisation and Engg. Economics. by Sharma & Banga. Khanna Publication.

2. Entrepreneurial Development and Management. by Vasant Desai. Himalaya Publication

3. Entrepreneurship New Venture Creation. by David H.Holt. Prentice Hall(PHI)

HU-611/711 Human Resource Management CR-3 UNIT-1- Human Resource Management-Meaning & Definition, Functions, Scope & Objectives, Qualities of HR Manager.

UNIT-2 -Human Resource Planning- Meaning & Definition, Importance of HRP, HRP Process. Barriers of HRP, Factors of sound HRP.

Recruitment - Meaning & Definition, Sources of Recruitment, Recruitment Process, Effective Recruitment.

Training & Performance Appraisal- Definition & Objective, Meaning & Definition, Performance, Appraisal process, Effective principles of performance Appraisal.

UNIT-3 -Industrial Relations- Concept & Meaning, Objective & Importance, Reasons of poor Industrial Relation Industrial Disputes - Meaning & Definition, Causes of Industrial Dispute, Prevention of Industrial Dispute, Conditions for good Industrial Relation.

UNIT-4- Workers Participation In Management-Meaning & Need, Forms of Participation, Scheme of participation, Merits & Demerits. Collective Bargain-Meaning & Definition, Objective & Importance, Process of Collective Bargaining, Effective Conditions.

Employee Discipline-Guidelines for action, Penalties & Punishment, Rewards of Discipline.

45

Text Book:

1. Human Resource Management by- P. Subba Rao, Himalaya publishing House.

Reference Books:

1. Human Resource Development Management. By a. M seikh. S.chand.

2. Industrial relation, trade union & labour legislation. By Sinha Sekha. Pearson Publication.

3. Human Resource Management. By S.S. Khanka. S. Chand.

HU-813 Freedom Movement of India CR-3 Unit-I-Impact of British Rule-Stages of British Rule- Era of Industrial capitalism and free trade- features of foreign investment and Race for colonies-Features of colonialism in India-Impact on Agriculture, Trade and Industries, Cultures and society, Social Groups and classes-New Awakening socio-religious movements and new thinkers.

Unit-II-The Early Phase-Resistance Movement upto 1857-Civil Rebellions, Tribal Uprisings and Peasant Movements-The 1857 Movement-Growth of Modern Nationalism upto 1905 Formation of political association, growth of press and public opinion, Brith and Growth of Indian National Congress-Nature of Early Phase-Program and policies, Economic Nationalism, Civil Right Demands, Methods, Role of Masses and Response of the British Govt.

UNIT-III- Era of Miliatant Nationalsim-Emergence of the New thought-Tilak, Aurobindo, Bipin Chandra Pal , Lala Rajpat Rai-Rise and growth of communalism-The First World War- The Nationalist Response-Revolutionary Movement at Home and Abroad,-Lucknow Pact-Repressial

UNIT-4- The Struggle for Swaraj-The impact of war years-Reforms 1919-20-Rowlatt Act-Punjab Tragedy.

Home Rule Movement-Khilafat Movement-Emergence of Gandhi,-Non-Co-operation Movement-Congress sessions,-The Swarajist, Emergence of Left Thinking within and outside congress-Demand for Purna Swaraj-Civil Disobedience Movement-Salt Satyagrah-Individual Civil Discobedience, Dalit Awakening, Round Table Conferences.Govt of India Act, Common Award.

Unit-V-Freedom Achived-The second World War and its impact on freedom movement-The Communal Question and growth of Muslim League-The Quit India Movement,The Simla Conference, The Indian National Army, The Interim Govt. and Constituent Assembly, Partition and Freedom.

Text Book:

1. Freedom Struggle.by Bipan Chandra,Amales Tripathy and Barun De,National Book Trust,New-Delhi.

Reference Books-

1. Sumit Sarkar,Modern India,New-Delhi.

2. Tara Chand,Histroy of Freedom Movement of India,I-IV Volumes Barun De,Epic Struggle.

3. Anil Seal,Emergence of Indian Nationalism.

HU-807 Indian Society and Culture CR-3 Indian Society

UNIT-1- Features of Indian Society, Histrorical Background, Geographical Features, Natural Regions, Racial Composition, Linguistic Distribution, Socio-Political Development, Economy of Indian Society.

UNIT-II-Socio-Demographic Features, Population, Literacy and Migration, Ethno-Cultural Composition, Major Religious Groups.

UNIT-III-Folk-Peasant-Urban Continuum, Folk Communities, Peasant Communities and Urban Communities, Caste system ,Caste and Politics, Casteism, Caste in Modern India.

UNIT-IV-Little Tradition, Great Tradition, Interplay of Little Tradition and Great Tradition, Little Tradition in part-Society and Part-culture.

UNIT-V-Unity in Diversity, Sources of Diversity, Sources of Unity, Threats to Unity.

46

Indian Culture

UNIT-I-Prehistoric Background of Indian Civilisation, March of Indian Civilization, Early Phase, Later Phases and Historical Phase, Roots of Indian Culture, Salad Bowl/Flower Bouquet Concept.

UNIT-II-Indian Art, Architecture and Sculpture, Indian Music and Dance, Dress and Ornaments, Food craft and Culinary Art, Rituals and Festivals.

UNIT-III-Processes of Socio-Cultural Change in india, Sankritization and Westernization, Syncretism and Cultural Reinterpretation, Indigenization, Secularization, Modernization, Democratization.

UNIT-IV- Universalization and Parochialisation, Acculturation, Contra-acculturation, Tribalisation, Detribalisation, Re-tribalisation,Social Mobility, Socio-Cultural Movement, Cultural Lag,Assimilation, Cultural Relativism, Cultural Ethnocentrism.

UNIT-V-Culture and Development, Role of Culture in Personality Development, Rural and Tribal Development, Sponsored Development and Decentralised Development in the Context of Globalisation.

Books Recommended:

First Semester 1. A.L.Basam The Wonder That was India 2. O.H.K. Spate Geography of India 3. S.N.Agarawal Population of India 4. Bimol Jalan The Indian Economy : Problems and Prospects 5. Atul Kohli Indian Democracy Second Semester 1. Allchin & Allchin The Birth of Indian Civilsation 2. Orissa Bureau of Text Book Preparation and Production Indian Society and Culture 3. D.K.Bhattacharya Prehistoric Archaeology 4. V.Gorden Childe Man Makes Himself 5. N.K.Bose Cultural Anthropology

HU-712/812 Indian Economy CR-3 UNIT-1-Meaning of Economic Development, Factors affecting economic development, Common characteristics of Underdeveloped countries, nature of Indian economy.

UNIT-II-Major Economic problems: Meaning of population Explosion, Causes of the rapid growth of population, Remedies, Unemployment: Cause and government policy to remove unemployment, concept of poverty, strategy of poverty alleviation.

UNIT-III-Economic planning- Rationale, features and objective. Alternative strategies, goals and achievements, shortfalls of different plans.

UNIT-IV-India’s Foreign Trade-Composition and direction, components of foreign capital. Need for foreign capital, Role and control of MNCs.

Reference Books:

1. Indian Economy-Mishra & Puri

2. Indian Economy-Rudradutta Sundaram

3. Indian Economy-A.N. Agarwal

47

HU 714 / 814 Finance Management CR-3 UNIT-I

Introduction to Financial Management: Nature and scope of finance, financial goals- Profits vs wealth maximization. Finance functions, Investment, financial and dividend decisions.

UNIT-II

Indian Financial System, Functions of Financial system, Valuation of Securities, Valuation of bonds, Valuation of shares

UNIT-III

Capital Budgeting: Techniques of Capital budgeting, Time Value of money, Estimation of project cash flow. Risk Analysis in Capital budgeting. The cost of Capital. Replacement Analysis.

UNIT-IV

Operating and Financial Leverages Capital Structure Theories: Traditional and M.M. hypotheses determining Capital Structure in practice, Dividend policies.

UNIT-V

Ratio Analysis, Requirement of working capital and Financing, Management of Working Capital.

Text books

1. Financial Management: Theory and Practice – Prasanna Chandra, TMH

Reference book

1. Financial Management – I.M. Pandey

48

CIVIL ENGINEERING COURSES CE-181 Engineering Graphics CR-2 Introduction (Drawing Instruments, Types of lines and their Uses, Dimensioning), Lettering Projection, Projection of Points, Projection of Straight Lines, Projection of Planes

Projection of Solids, Section of Solids

Development of Surfaces

Computer Aided Drafting (Learning of Software, Basic Commands, Setting of Drawing, Two Dimensional Drawing, Dimensioning of Drawing, Text insertion, Printing of Drawing)

CE-301 Solid Mechanics CR-4 1. Simple stresses and strains: Concept of stress, stress and strain in materials under tension, compression and shear,

elastic constants, relation between elastic constants, thermal stress and strain, stress & strain of composite bars.

2. Compound stresses and strains: Two dimensional stress system, principal planes, principal stresses, Mohr’s stress circle, principal strains, Mohr’s strain circle, principal stresses computed from principal strains.

3. Bending stresses & shear stresses in beams: Bending moment and shear force diagram of determinate beams, Theory of simple bending of initially straight beams, Distribution of normal & shear stresses, Unsymmetrical bending, shear center, position of shear centre, shear flow, shear center for symmetrical & unsymmetrical section.

4. Torsion: Torsion in solid & hollow circular shafts, torque and power transmitted by solid and hollow shafts, strength of shafts, combined bending & torque, closed coiled helical springs.

5. Columns & Struts: Elastic instability, Euler theory-column with one end free & other end fixed, column with both ends hinged, column with both ends fixed, column with one end fixed and the other end hinged, eccentrically loaded column, column with initial curvature.

6. Cylinders & Shells: Stresses & strains in thin cylinders and thin spherical shell under internal pressure, thick cylinders subjected to internal & external pressures compound cylinders.

7. Theories of Failure: Stress concentration, Principal stress theory, maximum shear stress theory, principal strain theory, total strain energy theory, Distortion energy theory

Text Book:

1. Strength of Materials by G. H. Ryder

Reference Books:

1. Elements of strength of Materials by S. Temoshenko & D. H. Young

2. Engineering Mechanics of Solids by E. P. Popov

3. Solid Mechanics by SMA Kazimi

4. Strength of material by R. K. Rajput

CE-302 Fluid Mechanics-I CR-4

1. Introduction: Properties of fluids-Concept of shear stress in fluids-Newtonian, Non Newtonian & Ideal fluids. 2. Fluid-Statics: Pressure at a point- Pressure head and Piezometric head, Measurement or pressure (Manometers),

Pressure on plane & curved surfaces, Buoyancy & floating bodies, Relative equilibrium of moving fluids. 3. Fluid Kinematics: fluid motion, fluid Acceleration-Types of flows, stream lines, path lines, stream tubes, concept of

control volume, continuity equation, Rotational & Irrotational motion, stream function & potential function –Potential flow & Solution of Laplace Equation, flow net.

4. Fluid Dynamics: Euler’s equation Bernouli’s Energy Equation, Application of energy Equation, pitot tube, venturimeter, orifice meter, flow through orifices & mouth pieces, vortex motion, Momentum principles, Application of momentum equation, jet striking in a plane & curved surfaces, force on pipe bend, moving of a tank by a jet issuing from it.

5. Laminar flow: Navier Stoke’s equation-flow between parallel plates, Stoke’s law, measurement of viscosity.

49

6. Dimensional Analysis & Model Analysis.

Text Book:

1. Engineering Fluid Mechanics by R.J. Garde & A.G.Mirajgaonker

Reference Book:

1. Hydraulics & Fluid Mechanics by P. N. Modi & S.M.Seth

CE-303 Surveying CR-4 1. Introduction: Classifications, Principle of surveying 2. Chain Surveying: Chaining and ranging, Errors & Corrections, Obstacles in chaining booking & plotting 3. Compass Surveying: Prismatic compass & Surveyor’s compass, Principles of compass surveying, local attractions,

corrections in compass traverse and adjustments. 4. Plane table surveying: Equipments, Methods, Advantages and Disadvantages, two point and three point problems. 5. Leveling: Principles, reduced level, Benchmarks, types, temporary adjustment of leveling, classifications of

leveling, Method of booking, Errors in leveling Curvature, refraction, Reciprocal leveling, Permanent adjustment of level.

6. Contouring: Characteristics; uses; Contours of geological formations. 7. Studies of Theodolite: Temporary adjustment of Transit Theodolite and its uses, observing horizontal and vertical

angles. 8. Theodolite Traversing: Checks in traversing, precision errors, Traverse Computations adjustment of closed

traverse. 9. Curve surveying: Simple, compound, Transition and Vertical Curves.

Text Book:

1. Surveying & Leveling by B. C. Punmia

Reference Books:

1. A text book of surveying by T. P. Kanitkar Vol-1 2. Surveying & leveling by R. Subramanian 3. Surveying by R. Agor

CE-304 Civil Engineering Materials & Construction CR-3

1. Stones:- Classification, composition, characteristics, uses, method of quarrying and dressing 2. Bricks:-Brick earth, method of Brick manufacture, testing of bricks, classification.

3. Cement:- Portland cement:-Classification, Chemical composition, hydration, tests for cement fineness test, normal

consistency, setting time, soundness, tensile and compressive strength

4. Concrete:-Composition of concrete, W/C ratio, Workability, Compressive and tensile strength, Nominal Mix

design, pozzolanic concrete, Light weight and high density concrete, Elasticity, Shrinkage and creep of concrete.

5. Timber:-Characteristics and suitability for different purposes, Defects and decay seasoning preservation of timber

6. Foundation:-Shallow foundation, Deep foundation, Description and types of spread foundation, Description and

types of pile foundations, Methods of pile driving, Pile driving formulae (isolated and group of piles),Excavation

and timbering of trenches, Well foundations, Caissons, Cofferdams.

7. Masonry:-Definition of terms; classification of masonry; stone masonry; classification, dressing, joints,

maintenance; Brick masonry; Types of bonds, brick laying, structures in brickwork; Partition walls.

50

8. Door & Windows:-Criterion of size; types of doors and windows ventilators and fanlights sash and casement

windows, skylights and lanterns; fixture and fastenings for doors and windows.

9. Floors:-Ground flooring, upper flooring, types, preparation, advantages and disadvantages..

Text Books:

1. Building Material by Rangawalla

2. Building Construction by B. C. Punmia

3. Estimation by B. N. Dutta

Reference Books:

1. Building Material by M. L. Gambhir

2. Building Material by P. C. Verghese

3. Building Construction by S.P. Bindra & S.P.Arora

CE-401 Fluid Mechanics-II CR-4 1. Boundary Layer Theory: Laminar & Turbulent boundary layer momentum equation for Boundary layer,

hydrodynamically smooth & rough surfaces. 2. Pipe flow: Darcy Weisbach formula, Laminar flow in pipes, velocity distribution & resistance to flow, Moody’s

diagram. 3. Turbulent Flow through pipes: Velocity distribution & resistance to flow 4. Pipe flow problem: energy losses in transition, pipe fittings & valves, problems on siphons, pipes in series and

parallel, branching of pipes, pipe networks. 5. Drag & Lift: Drag-due to ideal & real fluids, types drag in a flat plate, sphere, circular disc, cylinders and aerofoil.

Lift due to ideal & real fluids, lift on a sphere, cylinder and aerofoil, induced drag. 6. Flow in open channels: Uniform flow- Chezy’s & Manning’s formulae, Uniform flow computation, hydraulically

efficient section, Energy & momentum equations, specific energy, flow in transitions. Gradually varied flow, Differential equation GVF, Flow profiles, GVF computation. Rapidly varied flow, Hydraulic jump.

7. Unsteady flow:

-Pipes-Water hammer & Surge tank

-Open channels-St Venant’s equation, waves and surges, solution of St Venant’s equation (overview)

Text Books:

1. Engineering Fluid Mechanics by R.J. Grade & A. G. Mirajgaonker

2. Flow in Open Channels by K. Subramanya

Reference Book:

1. Hydraulics & Fluid Mechanics by P. N. Modi & S. M. Seth

CE-402 Structural Analysis-I CR-4 1. S.F.D. & B.M.D.: Definition, type of supports, shears force and bending moment diagram of all determinate beams,

frames etc. S.F.D and B.M.D for the structures with internal hinge, Inter-relation between S.F.D and B.M.D. Obtain B.M diagram from S.F diagram.

2. Slope And Deflection of Beams: Double Integration method, Macaulay’s method, Moment Area method, Conjugate beam method, virtual work (Unit load) method, strain energy method. Castiglione’s theorems of strain energy. Maxwell’s reciprocal theorem, Betti’s theorem, Rayleigh-Ritz method

3. Plane Trusses and Space Trusses: Analysis of forces in members of a simple truss, Deflection of truss joints-Analytical and graphical methods, Williot-Mohr diagram. Forces in members of simple space truss.

4. Arches & Cables: Analysis of three hinged parabolic and circular arches for bending moment, normal thrust and redial shear, Analysis of cables and three hinged suspension bridges.

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5. Influence lines and Rolling loads: Rolling loads and influence lines for simple supported beams. Influence lines for forces in members of Pratt and Warren trusses with parallel top and bottom cords, Influence lines for three hinged arch i.e. for horizontal thrust, bending moment, normal thrust and radial shear.

Text Book:

1. Structural Analysis vol I by S.S. Bhavikatti

Reference Books:

1. Theory of Structures by S. Ramammrutham

2. Theory of Structures (I & II) by Pandit & Gupta

CE-403 Transportation Engineering-I CR-3 1. Roads: History & development of Roads-Classification of Roads-Traffic & location surveys-Principles of selection

of alignments , Geometric Elements of Roads-Standards for land and carriage way width, camber, gradients, super elevation, sight Distances, curves, widening, calculation formula, Road junctions- different types and arrangements.

2. Road Materials: Selection, properties and testing. Specification for construction of earth, moorum, water bound macadam, Bituminous and concrete roads, Idea about soil, cement and other stabilized roads.

3. Road making machinery and equipments: 4. Road drainage: surface, subsurface and cross drainage Hill or ghat roads their special aspects. 5. Pavement design: principles of design of flexible and rigid pavements by I.R.C. Method, Maintenance: General

aspects of maintenance of different roads. 6. Earth Work: Classification, Measurements and setting out computation of Areas volumes, Prismoidal and

Trapezoidal methods, Prismoidal and curvature corrections, Compaction methods. 7. Traffic Engineering: Traffic survey, Traffic volume study, speed studies, Traffic capacity study, Parking study,

Road accident studies.

Text Book:

1. Highway Engineeriung by Khanna and Justo

Reference Books:

1. Surveying & Leveling by R. Agor

2. Bridge Engineering by S. P Bindra

CE-404 Environmental Engineering CR-3 1. Introduction: Effects of Environment on health and comfort of man, Principles of Environmental sanitation

Environmental pollution and necessity of its control. 2. Water Supply Engg: Objectives, Essentials of water supply Engineering, Role of Engineers. 3. Quality of water : Impurities in water, Physical, Chemical & bacteriological impurities, analysis of water, drinking

water standards, water borne diseases, Suitability of water for trade purpose. 4. Quantity of water: Types of demand, Design period, forecasting of population fluctuations on demand, Factor

affecting water demand. 5. Sources of Water supply: Hydrologic cycle, surface sources, Ground water sources, yields form various sources,

types of well construction, comparison of sources with respect to quality & quantity, choice of source supply. 6. Intakes and Conveyance: Intakes types of intakes, pipe corrosion and its preservation. 7. Pumping of water: Necessity ˜types of pumps, horsepower of pumps, choice of pumps 8. Waste Water Engineering: Principle of waste water Engineering, Definition of technical terms, and necessity for

their safe disposal. 9. Systems of Sanitation: Types of collection, merit and demerits of various systems, comparison of various systems. 10. Quantity of sewage: Quantity of sanitary and storm sewage, Relation with water supply, dry, weather flow. 11. Characteristics Examination of Sewage: Physical, Chemical & biological characteristics decomposition of

sewage, cycles of decomposition physical and chemical examination, BOD, relative stability, population equivalent. 12. Collection & Conveyance: Methods of collection, systems of sewerage, advantages and disadvantage. 13. Design of Sewers: Hydraulic design of sewers, self cleansing velocity, gradients, design of Sewers and storm water

drain 14. Construction of Sewers: Materials for sewers, types, laying and , testing of sewers, ventilation, leaning of sewers. 15. Sewer Appurtenances & Pumps:-

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16. Manholes drop: Manholes, Lampholes, street inlets, catch basin, flushing tank, storm water regulation, grease and oil-traps, inverted siphons.

17. Pollution: Air pollution, Water Pollution, Noise Pollution, Marine Pollution Text Book: 1. Environmental Engineering Vol.-I & Vol.-II by S. K. Garg Reference Books: 1. Water supply & Sewerage by E. W. Steel 2. Environmental Engineering by Peavey Rowe & Techbanoglous 3. Water supply & Sanitary Engineering by J. S. Bindia 4. Water & Sanitary Engineering by S.C. Rangwala

CE-501 Structural Analysis-II CR-4 1. Degree of static and kinematic indeterminacy, consistency deformation method. 2. Analysis of beams and frames By

(i) Slope deflection method

(ii) Moment distribution method (iii) Kani’s method (iv) Column Analogy Method (v) Strain energy method

3. Analysis of two hinged arches and fixed arches, two hinged suspension bridges. Text Book: 1. Structural Analysis Vol. II by S.S. Bhavikatti Reference Books: 1. Theory of Structures by S. Ramammrutham 2. Theory of Structures (I & II) by Pandit & Gupta 3. Indeterminate Structural Analysis by J. S. Kinney

CE-502 Principles of Structural Design CR-4 1. Design Philosophy: Introduction to concrete and steel, Structures and structural systems, internal forces on various

structural systems – Trusses, Cables, Arches, Beams, Slabs and Frames, stability criteria, loading standards, working stress method (WSM), ultimate load method (ULM), probabilistic analysis and design, uncertainties in design, limit state method (LSM), limit states, partial safety factor format

2. Reinforced Concrete: Materials, Basic properties of concrete and reinforcement, design using LSM of singly-doubly reinforced sections, flanged sections and slab at various support conditions for flexure, shear, torsion, bond, anchorage and deflection criteria

3. Steel: Properties of structural steel, IS rolled section, connections, simple and moment resistant bolted and welded connections, design of tension members, tension member with lug angle, design of compression member, design of lacings and batten. Design of beams, compound beams and curtailment of plates, Built-up sections

Text Books:

1. Design of Concrete Structures by U. Pillai & D. Menon

2. Limit State Design of Steel Structures by S. K. Duggal

Reference Books:

1. Design of Steel Structures by L. S. Negi 2. Design of steel structure by Arya and Ajmani 3. Design of steel structure by Gaylard and Gaylard 4. Design of steel structure by Krishnamachar & Ajitha Sinha 5. Design of R. C. Structures by S. Ramamrutham 6. Reinforced Concrete limit state design by A. K. Jain 7. Limit State Design of Steel Structures by N. Subramanian

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CE-503 Water Resources Engineering-I CR-4 Hydrology

1. Introduction-Hydrologic cycle, catchment area 2. Precipitation-Meteorological aspects of precipitation-measurement-preparation & presentation of data-mean

precipitation, DAD Curves. 3. Abstraction- Evaporation-measurement –empirical equation, Evapo-transpiration measurement –equation PET,

Infiltration-process-measurement-infiltration capacity & indices. 4. Runoff-Process of stream flow measurement-Hydrograph, yield, flow duration curve, flow mass curve. 5. Hydrograph-Base flow, effective rainfall, Unit hydrograph-Derivation, synthetic UH, Instantaneous UH

Irrigation Engineering

1. Irrigation: Definition, necessity, Benefits & ill effects of irrigation, types of irrigation & methods of irrigation 2. Water Requirements of Crops: Agro meteorological Variables, Soil water plant relationship, base period, crop

period, duty and delta relationships, factors affecting Duty, G.C.A., C.C.A., intensity of irrigation, kor-watering, kor period, kor depth, cash crop, crop rotation, determination of Irrigation requirement of crops, irrigation scheduling, Assessment of irrigation water, irrigation efficiencies, consumptive use.

3. Canal Irrigation systems: Classification of canals, Alignment, Different types of canals, Distribution system, Design of stable channels in India, Regime Channel, Kennedy’s Theory, Use of Garret’s diagram, Lacey’s theory, Design procedure of irrigation channels, different types of lining and its construction

4. Diversion Head works: Concept of weir & barrage, Layout of diversion heads works & its components (description).canal head regulator, head sluices, Theory of seepage, concept of Blight’s creep theory, Lanes Weighted creep theory, Khosla’a theory on permeable foundation ( elementary concept)

5. Canal Falls: (Description) Necessity. Location, Elementary concept of different types of canal falls 6. Cross drainage works: (Description) Type of cross drainage works, elementary idea about different types of cross

drainage works

Overview on Groundwater

1. Forms of sub-surface water, water table, saturated formation, specific yield, Darcy’s law, Wells (steady flow in confined and un-confined aquifers), Open wells

Text Books:

1. Engineering Hydrology by K. Subramanya

2. Irrigation Engineering & Hydraulic Structures by S. K. Garg

Reference Book:

1. Applied Hydrology by V. T. Chow, D. R. Maidment, L. W. Mays

CE-504 Geotechnical Engineering-I CR-4 1. Introduction: Definition of soil, origin & formation of soil, General types of soil and soil deposits, Cohesive and

cohesion less soils. Basic definitions, Relationship & inter-relationships. Index properties of soils & their determination

2. Classification of soil: Based on grain size and plasticity characteristics. 3. Capillarity of soil: Type of soil water, capillary rise in soils, soil suction, capillary potential, capillary tension

during drying of soils, Measurement of soil suction, shrinkage and swelling of soils, slaking of clay and bulking of sand, capillary siphoning.

4. Permeability of soils: Darcy’s law and its range of validity, Discharge velocity, Seepage velocity Laboratory determination of Co.eff of permeability (K):-constant head permeability, Variable head permeability. Indirect determination of K, Factors affecting permeability, Permeability of stratified soils, Co-efficient in a inclined direction.

5. Seepage analysis: Laplace’s equation ,Stream and Potential Functions, flow net, characteristics of flow net, graphical method, flow net for anisotropic soils, flow net in non-homogeneous soil mass, uses of flow net.

6. Effective stress principle: Nature of effective stress, Effect of water table fluctuation on effective stress. Effective stress in a soil mass under different hydraulic conditions, Increase in effective stress due surcharge. Effective stress in soils saturated by capillary action, Seepage pressure, Effective stress under steady seepage conditions, Quick Sand Condition, Effect of surcharge on quick conditions, Failures of Hydraulics Structures by Piping, Prevention of Piping Failures and . Design of inverted filters.

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7. Shear strength: Basic concept, Mohr-coulomb-failure criteria. Methods of determination of shear strength parameters, shear test, Triaxial, compression test, unconfined compression test, vane shear test, advantage and disadvantage of direct shear and triaxial compression test, Laboratory methods & field methods, Hvorslev’s failure criterion.

8. Compaction of Soils: Objects, Measurement of compaction: Determination of OMC & MDD by standard & modified proctor compaction test. Factors affecting compaction .Zero air voids line field compaction control use of proctor –Needle.

9. Consolidations of Soils: Introduction, Principles of consolidation, soil spring analogy, consolidation characteristics of laterally confined soil, pressure void ratio diagram, Normally consolidated and Reconsolidated soils, Estimation of reconsolidation pressure, Terzaghi’s theory, theory of one dimensional consolidation, Laboratory consolidation test, Determination of coefficient of consolidation and void ratio, Elementary concept of three dimensional consolidation. Settlement of foundations.

Text Book: 1. Soil Mechanics and Foundation Engineering by Dr. K. R. Arora Reference Books: 1. Basic and applied soil mechanics by Gopal Ranjan & A.S.R.Rao 2. Soil Mechanics & Foundation Engineering by B. C. Punmia, Ashok K. Jain, Arun Kumar Jain 3. Foundation Analysis and Design by J. E. Bowls 4. Geotechnical Engineering Principles and Practices by Donald P. Coduto 5. Principles of Geotechnical Engineering by B. M. Das .

CE-505 Water & Waste Water Engineering CR-3 1. Purification of water: Necessity, standards, layout of modern treatment plant, plain sedimentation, sedimentation

aided with coagulation, filtration, disinfection, water softening, Miscellaneous methods of water treatment, water Aeration, removal of color, taste and odor, removal of iron and Manganese, fluoride, treatment for radio-activity

2. Treatment of sewage: Layout of a modern sewage treatment plant, principle of treatments, screens, grit chambers, detritus tanks, skimming tanks, plain sedimentation tanks, primary clarifier, secondary clarifiers sedimentation with Coagulation, Secondary treatment, contact beds, bio-filters, Activated sludge process, Sludge digestion and disposal

3. Miscellaneous methods of sewage treatment: Chlorination of sewage, oxidation ponds theory & design of oxidation ditch, Aerated lagoons, septic tanks, cesspools, imhoff tanks, Principles of industrial Waste treatment, methods of disposal of Sewage:- Disposal on land and water bodies.

4. Distribution of Water: Systems of supply, service reservoir layout systems, Design and analysis of distribution systems, water supply and drainage of buildings,

5. Miscellaneous: Definition of terms, house-connection, overhead tanks, Design of internal distribution system., Ventilation and lighting of buildings, principles of house drainage, traps, Sanitary fittings, systems of plumbing, choice of system, Ventilation and lighting of building.

Text Book:

1. Environmental Engineering by S. K. Garg Vol. I & Vol.-II

Reference Books:

1. Water supply sewerage by E. W. Steel

2. Environmental Engineering by Peavy Rowe & Tehobanoglous

3. Environmental Engineering by S.K. Garg Vol-I & Vol-II

4. Water supply & Sanitary Engineering by J. S .Birdie

5. Water supply & Sanitary Engineering by S. C. Rangwala

6. Essentials of Environmental Studies by Kurian Joseph R. Nagendran

CE-601 Design of Concrete Structures CR-4 1. Design of short and long columns- Axial & eccentric 2. Design of footings – Simple and combined 3. Design of piles. 4. Design of Stair case. 5. Design of Circular water tank.

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6. Basic concept of design of staging and foundation of water tank, Prestressed concrete - Basic principles, systems of prestressing, material properties, losses of prestress, analysis & design for flexure & shear

Text Books: 1. Design of Concrete Structures by U. Pillai & D. Menon 2. Design of Concrete Structure by P.C. Vergeece Vol-I & Vol-II Reference Books: 1. Fundamentals of RCC Design by Sinha & Roy 2. Design of R. C. Structures by S. Ramamrutham. 3. Reinforced Concrete limit state design by A. K. Jain 4. Plain and Reinforce Concrete Vol.-I & Vol.-II by Joy Krishanan and Jain 5. Prestressed Concrete by N. Krishna Raju

CE-602 Water Resources Engineering-II CR-4 Flood

1. Flood-methods of estimation-UH method-Flood frequency studies (Gumbel’s method, Log Pearson type III method), Design flood

2. Flood Routing –Basic equation-Hydrologic flood routing, Modified Pulse Method, Muskingham method of channel routing, hydraulic flood routing.

3. Flood Control works: Flood flows, types of flood control works, river training works

Drainage

1. Drainage of Command Area: Drainage Issues ;( Water logging and salinity, sources of excess water), Drainage criteria, Design discharges, steady and non steady flow to drains , Planning and Design surface subsurface Drainage systems, Drainage system Operation and Maintenance.

Dams & Reservoirs

1. Reservoirs: Preliminary concept of reservoir planning, types of reservoirs, selection of site, reservoir capacity from mass curves silting of reservoirs, Principle of Reservoir Operation

2. Dams: Classification, Investigation, Site selection, economical height of dam, 3. Gravity dams: Forces acting on gravity dam, structural stability of gravity dam, Elementary profile of a Gravity

dam High & low gravity dam, concept of design of gravity dam, construction of Galleries, joints, foundation treatment of gravity dam.

4. Earth Dams: Types of earth dams, causes of failure of earth dams, criteria for safe design of earth dams, determination of phreatic line and flow net, measures to control seepage through earth dams and their foundations, slope protection, concept of stability of slopes of earth dams by slip circle method.

Spillways

1. Spillways: Description & Design Aspects of different type of spillways & energy dissipating works.

Overview on Water Power

1. Different power sources, classification of hydropower plants, important terms and definitions connected with hydropower, principal component of hydropower plant

Text Books:

1. Engineering Hydrology by K. Subramanya 2. Irrigation Engineering & Hydraulic Structures by S.K. Garg

CE-603 Geotechnical Engineering-II CR-4 1. Stresses Distribution: Introduction , Boussinesq’s formula for determining vertical stress under point load, Pressure

bulb, Vertical stress distribution on horizontal and vertical plane, Vertical stress due to uniformly loaded line, strip, circular, square and rectangular footings, New marks’s influence chart and its use, Approximate methods of finding vertical stress below loaded footings, contact pressure.

2. Bearing Capacity of Shallow Foundations: Introduction, Rankine’s analysis for cohesion less soils, Terzaghis bearing capacity equation, Factors influencing bearing capacity of soil including effect of water table , size of

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footings and eccentricity of loading, plate load test, standard penetration test and static cone penetration test Selection of type of foundations, Depth of foundation, Floating Foundation, Bottom heaving, Dewatering of foundation trenches:

3. Pile Foundations: Classification of piles, Load carrying capacity of single piles by static and dynamic formulae (Hilley’s and Engineering News formula) Group action of piles, Settlement of pile groups, Negative skin friction, under reamed piles.

4. Earth Pressure and Retaining Structures: Active & passive earth pressure, Rankine’s theory for active and passive earth pressure, Coulomb’s theory and Rebhan –Poncelet construction (for cohesion less soil), Culmann’s construction for active and passive earth pressure (for cohesion less soils), Pressure against solid retaining walls without and with uniformly distributed load surcharge, Effect of submergence, Types of sheet pile walls, pressure against cantilever and Anchored bulkheads (free earth support method only), pressure against wallings in deep trenches.

5. Stability of Slopes: Stability of infinite slopes, Culmann’s approach for finite slope, Swedish, slice method and friction circle method of analysis, stability of homogeneous finite earth slopes without surcharge with steady seepage and under sudden drawdown condition.

6. Site Investigations: Methods of exploration, Preservation, shipment and storage of sampling. 7. Introduction to Rock mechanics: Classification of rocks, Index properties of rocks, Laboratory test for

determination of strength of rocks, Modes of failure of rock, Mohr-coloumb failure criterion for rocks, shear strength of rocks, hardness of rock, In-situ stresses in rocks.

Text Book:

1. Soil Mechanics and Foundation Engineering by Dr. K. R. Arora

Reference Books:

1. Basic and applied soil mechanics by Gopal Ranjan & A. S. R. Rao

2. Soil Mechanics & Foundation Engineering by B. C .Punmia, Ashok Kumar Jain, Arun Kumar Jain,

3. Foundation Analysis and Design by J. E. Bowls

4. Geotechnical Engineering Principles and Practices by - Donald P. Coduto 5. Principles of Geotechnical Engineering by B. M. Das

CE-604 Advanced Surveying CR-3 1. Total station instrument, electronic measurements in surveying; 2. Tacheometry: Different types of tacheometric measurements- fixed and movable hair tacheometres, tangential

system, auto reduction tacheometers, Subtense bar; 3. Triangulation: First order triangulation, selection of stations, inter-visibility of stations, satellite station, Base-line

measuring apparatus and baseline measurement, base net; 4. Survey adjustments: Theory of errors, probable error, principle of least squares, normal equations and correlations,

level net; 5. Aerial photogrammetry: Principles, computation of scale and distance between points, relief displacement,

measurement of height of different objects, ground control, flight planning, 6. Remote sensing: Introduction to microwave remote sensing and basic concepts, spectral reflectance of ground

features, data acquisition and interpretation, applications of remote sensing for resources mapping, monitoring and management,

7. Acquaintance of Global Positioning System and Geographic Information System.

Text Books:

1. Advanced surveying by Satheesh Gopi, R. Sathikumar & N. Madhu 2. Surveying by R. Agor 3. Basics of Remote sensing & GIS by S. Kumar

Reference Books:

1. Surveying by B.C. Punmia Vol. II 2. Global Positioning system by Satheesh Gopi

57

CE-701 Design of Steel Structures CR-4 1. Design of Plate girders including stiffners splices and curtailment of flange plates,

2. Beam column, stability consideration, interaction formula,

3. Column bases, slab base, gusseted base and grillage footings,

4. Design of steel roof trusses, cold formed light gauge steel

Text Books:

1. Design of Steel Structure by Ramchandran Vol. 1 & II

2. Design of Steel Structures by N. Subramanian

References Books:

1. Design of steel structure by Arya & Ajmani

2. Design of steel structure by Gaylard and Gaylard

3. Design of steel structure by Krishanamacher & Ajitha Sinha

CE-702 Transportation Engineering-II CR-4 Railway Engineering:

1. Location survey: Principles of location-Traffic and land survey, land acquisition, 2. Permanent way :Formation, Ballast, Sleepers, rails, joints and testing laying and maintenance of track, wear of

rails, creep and its prevention, check rail, Tractive resistances and hauling capacity of locomotives, 3. Geometry design- Gradients, Horizontal curves , speed of trains, super elevation, negative cant, grade

compensession ,widening, and vertical curves, 4. Points and crossings 5. Signaling and inter locking -arrangements their equipments, Construction and operation calculation formulae, 6. Station-Station yards and siding platforms, station buildings, Engine sheds, turntable ash pits 7. Level crossing Tunnel Engineering

1. Tunnel Engineering: Necessity of tunnel, tunneling versus open cut, Different cross sections of tunnels, Transfer of surface alignment, use of shafts, Heading and enlargements, Drilling and blasting membering and shuttering. Shield tunneling, Tunneling under water Drainage and Ventilation of tunnels. Tunnel lining.

Airport Planning & Design

1. Airport Planning and Design: Classification of airports, General consideration for location and layout, direction of breeze use of wind-Rose diagram. Airport obstruction, Principle of design and construction of Runways, traffic, Aprons, Landing strips and hangers, Location of Administrative Building and control tower, Airport marking and lighting

Docks & Harbours

1. Natural and artificial harbours, selection of site, layout of harbour with its components principles of construction of breakwaters, quays, jetties, study wind tides, wave action accretion and denudation, dry docks, wet docks and floating docks.

Text Books:

1. Railway Engineering. by S. C. Saxena

2. Tunnel Engineering by S. C. Saxena

3. Airport Planning and Design by S. K. Khanna, M. G. Arora & Jain.

4. Docks & Harbours by Sreenivasan

Reference Books:

1. Airport Engineering by N. Ashport & P. H. Wright

2. Dock and Tunnel Engineering by R. Srinivasan

58

CE- 711 Prestressed Concrete Design CR- 3 1. Prestressing concepts, materials

2. Systems of prestressing and losses

3. Introduction to working stress method

4. limit state analysis and design of members for bending, shear, torsion and axial forces

5. End block design, Deflections, Use of relevant codes of practice

Text Book:

1. Prestressed Concrete by N. Krishna Raju

Reference Books:

1. Design of Prestressed Concrete Structure by T.Y. Lin, 2. Limit State Design of Prestressed Concrete by Y. Guyan

CE-712 Concrete Technology CR- 3 1. Concrete Materials: Types of material, cement types, testing of materials 2. Fresh concrete: Workability, Factors affecting workability, type of tests 3. Strength of concrete: Water cement ratio, gain of strength with age, effect of maximum size of aggregate,

relationship between compressive and tensile strength, high strength concrete, high performance concrete. 4. Elasticity, shrinkage and creep of concrete 5. Durability of concrete: permeability, carbonation, sulphate attack, alkali-aggregate reaction, chloride attack. 6. Concrete Mix design: concept & types, example 7. Testing: Destructive and non destructive testing of hardened concrete 8. Admixtures 9. Special Concrete: Lightweight Concrete. High density concrete. Hot weather and cold weather concreting, Polymer

concrete.

Text Book:

1. Concrete Technology by M. S. Shetty

Reference Books:

1. Concrete Technology by M. L. Gambhir

2. Properties of concrete by A.M. Neville

CE-713 Advanced Foundation Engineering CR- 3 1. Machine Foundations: Types of Machine Foundations, Basic Definitions, Degree of Freedom of a Block

Foundation, General criteria for design of Machine Foundations, Free Vibration, Forced Vibration, Vibration analysis of a Machine Foundation, Determination of Natural Frequency, Design Criteria for Foundations of Reciprocating machines, Reinforcement and construction Details, Mass of Foundation, Vibration Isolation and Control

2. Liquefaction of foundation soils under earthquakes: Introduction, Liquefaction Phenomenon, Effect of Liquefaction on Build environment, Factors Affecting Liquefaction, Assessment of Susceptibility of a Soil to Liquefaction, Prevention of Liquefaction

3. Foundations on Expansive soils: Expansive soils, Identification of Expansive soils, Classification of Expansive soils, Causes of moisture changes in soils, Effects of swelling on buildings, Preventive measures for expansive soils Modification of Expansive soils, Design of foundation in swelling soils, Drilled piers, Belled drilled pier, Under reamed piles, construction of under reamed piles

4. Foundation Soil Improvement: Stabilization of soil with granular skeleton, chemical, cement, lime , ash, slag & bitumen, Thermal stabilization, Electrical stabilization, Vibration methods of ground improvement, Drainage methods of ground improvement, Precompression and vertical drains, Grouting and injection, Reinforced earth, Use of geotextile & modern materials Ground anchors & soil nails.

59

Text Book:

1. Soil Mechanics and Foundation Engineering by K. R. Arora

Reference Books:

1. Foundation Analysis and Design by J. E. Bowls 2. Soil Improvement techniques and their evolution by - Van Impe. 3. Geotechnical Engineering by Shashi K. Gulhati & Manoj Datta 4. Geotechnical Engineering Principles and Practices by - Donald P. Coduto 5. Foundation Engineering by P. C. Verghese 6. Principles of Geotechnical Engineering by B. M. Das , 7. Ground Improvement techniques by P. Purushothama Raj

CE-714 Ground Improvement Engineering CR- 3 1. Introduction to ground improvement, overview of various techniques, Soil stabilization-Principles, methods,

stabilization with granular skeleton, chemicals, cement, lime, ash, slag, bitumen; thermal and electro kinetic process, construction.

2. Grouting-Principles, techniques, process, control of grouts and grouting operations, applications. 3. Reinforced earth-Principles and advantages, behavior, design methods, material specifications, effect of water and

dynamic loading, Geosynthetics, Geotextiles, geogrids, geonets, geomembranes, geocomposites. 4. Deep compaction of granular soils-vibrofloation, vibrocompaction, blasting, dynamic compaction, compaction piles 5. Stabilization of soil with lime and stone columns – principles, laboratory and field investigations, control, design

and construction, applications 6. Ground anchors and soil nails-Principles, technology, construction process, structural elements, pull-out capacity

estimates, application criteria, design of anchored walls and nailed soil retaining structures. 7. Vertical drains-development, design of drain installations, preloading construction, applications and limitations.

Text Book:

1. Ground Improvement Techniques by P. Purushothama Raj

Reference Books:

1. Foundation Analysis and Design by: J. E. Bowls

2. Soil Improvement Techniques and their Evolution by Van Impe.

3. Geotechnical Engineering by Shashi K. Gulhati & Manoj Datta

4. Geotechnical Engineering Principles and Practices by Donald P. Coduto

5. Foundation Engineering by P.C. Verghese

CE-721 Ground Water Hydrology CR - 3 1. Hydrologic cycle, Water balance, Occurrence of ground water: Origin, geological formations as aquifers, type of

aquifers, groundwater basins, springs.

2. Darcy’s Law, validity of Darcy’s Law permeability, laboratory and field measurement of permeability, groundwater Flow lines.

3. Well Hydraulics: steady flow to a well, steady radial flow to a well in confined aquifer and unconfined aquifer, Unsteady radial flow into a confined aquifer, Non equilibrium Theis equation, Theis method of solution, multiple well system;

4. Methods of constructions of deep and shallow wells: The percussion (or cable tool) method of drilling, Direct circulation hydraulic rotary method, Down the hole hammer method, well logs-receptivity logging, testing of wells for yield,

5. Effect of irrigation, stream flow, rainfall on groundwater fluctuations, seasonal and secular variations, fluctuation due to miscellaneous causes; Surface and Subsurface investigations of groundwater:

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6. Geophysical exploration, Electrical resistivity method, aerial photo interpretation, remote sensing applications to ground water exploration, test drilling,

7. Artificial recharge by water spreading, through pits and shaft, recharge through other methods;

8. Ground water pollution: Municipal sources, liquid wastes from domestic uses, solid wastes, Industrial sources, tank and pipeline leakage, Mining activity, agricultural sources, septic tank and cesspools, saline water intrusion in coastal aquifers, methods to control saline water intrusion ;

9. Groundwater management: Concepts of Basin management, Equation of hydrologic equilibrium, groundwater basin investigations, conjunctive use of surface and groundwater.

Text Book:

1. Ground Water by H. M. Raghunath

Reference Books:

1. Groundwater Hydrology by D. K. Todd

2. Groundwater and Tube Wells by S. P. Garg

3. Hand book of Applied Hydrology by V. T. Chow

CE-722 Open Channel Hydraulics CR- 3 1. Uniform flow, determination of roughness coefficients and the factors affecting the roughness, computation of

uniform flow, flood discharge, determination of normal depth and velocity, flow in composite roughness; Design of channels for uniform flow in non-erodable and erodable with grassed channels;

2. Dynamics of Gradually varied flow and classification of flow profile, methods of computation, Dynamics of spatially varied flow - analysis of flow profile and computation by method of numerical integration;

3. Rapidly varied flow, classification, flow over spillway, Hydraulic Jump, types with characteristics of jump, the surface profile and location of the jump, jumps as energy decapitator, Rapidly varied flow through non-prismatic channels ;

4. Unsteady flow, dynamics of gradually varied unsteady flow, solution of unsteady flow equations, rapidly varied unsteady flow, positive and negative surges, flood routing, principle and methods of flood routing.

Text Book:

1. Flow in Open Channel by R. French

Reference Books:

1. Flow through Open Channel by K. G. Rangaraju

2. The Hydraulics of Open Channel Flow: An Introduction by H. Chanson.

3. Open Channel Flow by F. M. Henderson.

4. River Hydraulics, (Technical Engineering and Design Guides as adapted from the

U.S. Army Corps of Engineers, No. 18) New York: ASCE Press.

5. low in Open Channel by K. Subramanya.

CE-723 Pavement Materials CR - 3 1. Conventional aggregates: Source, preparation, grading, testing and their evaluation,

2. Bituminous binders- Properties, testing and applications. ;

3. Bituminous mixes- Design, testing and evaluation; Modeling of bituminous binders and mixes ;

4. Materials for cement concrete and semi-rigid pavements, Design of mixes for stabilized roads ;

5. Non-conventional and new pavement materials- their application and limitations ;

6. Modern methods of testing and evaluation of paving materials

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Text Books:

1. Principles of Transportation Engineering by P. Chakraborty and A. Das

2. Principles of Transportation and Highway Engineering by G. V. Rao

Reference Books:

1. Indian Roads Congress, Manual for Construction and Supervision of Bituminous works, New Delhi, 2005.

2. Relevant IRC, ASTM and AASHTO codes and specifications.

CE- 724 Project Safety Management CR - 3 1. Introduction to quality planning and control of quality during design of structures, Quantitative techniques in quality

control, Quality assurance during construction, 2. Inspection of materials and machinery in process inspection and test, Preparation of quality manuals, check list and

inspection report, Establishing quality assurance system, 3. Quality standards/ codes in design and construction, Concept and philosophy of total quality management (TQM),

Training in quality and quality management systems (ISO-9000), 4. Concept of safety, Factors affecting safety, Physiological, Psychological and Technological, Planning for safety

provisions, Structural safety, Safety consideration during construction, demolition and during use of equipment, 5. Management of accidents/ injuries and provision of first aid, Provisional aspect of safety, Site management with

regard to safety recommendations, 6. Training for safety awareness and implementation, Formulation of safety manuals, safety legislation, standards/

codes with regard to construction, Quality vs Safety. Case studies

References Books:

1. Construction Safety by Jimmy W. Hinze

2. Construction Safety and Health Management by Richard J. Coffe, Jimmie Hinze and Theo C. Haud (Tamilnadu Factory Act)

3. Construction Planning and Management by U.K Shrivastav

CE- 731 Construction Methods & Equipments CR- 3 1. Factors affecting selection of equipment technical and economic, 2. construction engineering fundamentals, Analysis of production output and costs, 3. Characteristics and performances of equipment for Earth moving, Erection, Material transport, Pile driving,

Dewatering, 4. Concrete construction (including batching, mixing, transport, and placement) and Tunneling.

Reference Books:

1. Construction Planning, Equipment and Methods by R. L .Peurifoy, P.E Clofford, J. Sehexnayder

2. Construction Equipment and Job Planning by S. V. Deodhar

3. Construction Equipment and Management by S. C .Sharma

4. Construction Equipment and its Planning and Application by Mahesh Verma

5. Construction Planning and Equipment by Satyanarayana and Saxena

6. “Heavy Construction” by Vazirani and Chandolu

CE- 732 Disaster Management CR - 3 1. Cyclones: Formation, Cyclonic precipitation, anti-cyclones,

2. Flood: Flood and its estimation, Flood warning, Flood protection measures.

3. Earthquake: Causes of earthquake, plate tectonics, seismic zoning map, Characteristics of strong ground motions & attenuation, damage assessment,

4. Rehabilitation and retrofitting of structures.

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5. Environmental disaster: Impact assessment studies, computation and preparedness.

6. Disaster management: Developing appropriate technology for disaster mitigation, Role of management teams, importance of awareness, alertness and preparedness camp.

Reference Books:

1. Earthquake resistant building construction by N. Sharma.

2. Engineering Hydrology by K. Subramanian.

3. Elementary Hydrology by V. P. Singh.

4. Disaster Mitigation, Preparedness, Recovery and Response by P. C. Sinha

5. Practical Guide to Environmental Management by F. B. Friedman

CE- 733 Finite Element Method CR - 3 1. Introduction, Use and advantages of FEM

2. Basic principles of structural mechanics

3. Element properties

4. Isoparametric Element

5. Direct stiffness method of analysis and solution technique.

6. Plane stress and plane strain analysis.

7. Analysis of plate bending.

Text Books:-

1. Finite Element Analysis by C. S. Krishnamoorthy 2. Finite Element Analysis by M. Mukhopadhaya

Reference Books:

1. An Introduction to the Finite Element Method by J. N. Reddy 2. Concepts and Applications of Finite Element Analysis by R. D. Cook 3. The Finite Element Method by O. C. Zienkiewicz 4. Finite Element Procedures in Engineering Analysis by K. J. Bathe

CE-734 Earthquake Engineering CR- 3 1. Parameters; India seismic zoning map; 2. Introduction to vibration problem; Un-damped and damped free vibrations with viscous damping; forced vibrations,

vibration isolation; 3. Response spectra; study of shake tables; 4. Multi degree freedom systems; Rayleigh’s method; 5. Free vibrations of un-damped systems determination of frequencies and mode shape by Holzer method and stodola

method; 6. Continuous systems; Introduction of IS Codes (IS:1893-2001)

Text Book:

1. Earthquake Resistance Design of Structures by Pankaj Agarwal & Manish Shrikhande.

Reference Books:

1 Geotechnical Earthquake Engineering by S.L. Krammen 2 Dynamics of structures (Theory and applications to Earthquake Engineering) by Anil K. Chopra

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CE- 801 Construction Planning and Management CR- 3 1. Contracts: General conditions and principles, various types of contracts methods of tendering. Earnest Money,

Security money. 2. Construction Management: Construction planning, scheduling & monitoring, Bar charts, elements of critical path

method (CPM) , Programme Evaluation & Review Techniques (PERT), Advantages & disadvantages, Elements of Network, Network rules, critical path analysis of CPM network, Activity times & Floats, Optimization through CPM technique PERT & Three time estimates.

3. Construction equipments: Selection of construction equipment, excavating & transporting equipments, Housing & conveying equipments

4. Material Management: Objectives & Functions.

Text Book: 1. Construction Planning & Management by Dr. U. K. Shrivastava Reference Books: 1. Construction Management & Planning by B. Sengupta & H. Guha, 2. Double Entry Book Keeping by Barliboy 3. Construction Planning Equipment and Methods by R. L. Peurity 4. Construction Planning Equipment and Plant by A. J. Ackerman & C. H. Locker 5. Construction Equipment and its Planning and application by M. Verma 6. Civil Engineering Contracts and Estimating by B. S. Patil & Orient 7. Construction Planning & Management by B.C. Punmia.

CE- 811 Traffic Engineering & Transportation Planning CR - 3 1. Traffic Engineering: Importance of Traffic engineering; Road User Characteristics, Human factors governing road

user behaviour, vehicle characteristics, slow moving traffic characteristics in Indian conditions;

2. Traffic Engg. Studies: Traffic Volume, Origin and Destination, Speed and delay: Measurements; Speed- density-volume relationships; Shock waves in Traffic flow, Headway Distribution;

3. Highway capacity analysis- cases of different types of highways; Intersection; Parking types; Off street parking; Facilities;

4. Traffic control devices: channelisation, rotary and Traffic signals, Traffic Signs and making. ;

5. Transportation Planning: Brief ideas about urban and regional transportation systems; Components of Transportation system planning; Land use planning, Trip generation and distribution,

6. Traffic assignment and modal split, Optimal scheduling; Economic evaluation of transportation plans.

Text Books:

1. Traffic Engg & Transportation Planning by L. R. Kadyali.

2. Transportation Planning and Planning by C. S. Papacostas and P. D. Prevedouros.

Reference Books:

1. Transportation Engg: An introduction by C. J. Khisty & B. K. Lall.

2. Principles of Transportation Engg by P. Chakraborthy and A. Das.

3. Highway Traffic Analysis and Design by R. J. Salter.

4. Relevant I.R. C. Codes.

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CE- 812 Pavement Design CR - 3 1. Introduction: Classification of pavements, Difference between highway and runway pavements, Factors affecting

structural design, Characteristics of traffic loading, Concept of VDF and Computation of design traffic ; 2. Principles of pavement design: Concepts of structural and functional failures, Performance criteria; Analysis of

pavements: ESWL, 3. Analysis of flexible and concrete pavements ; 4. Design of pavements: IRC, AASHTO and other important methods of design of bituminous and concrete

pavements ; 5. Pavement evaluation techniques: Benkleman beam, Falling weight deflectometer and other equipments, 6. Concepts of pavement maintenance management Text Books: 1. Principles of Pavement Design by E. J. Yoder & M.W. Witzack. 2. Principles of Transportation Engineering by P. Chakroborty & A. Das. Reference Books: 1. Design and Performance of Road Pavements by D. Croney & P. Croney 2. Principles of Transportation Engineering by P. Chakroborty & A. Das 3. Highway Engineering by S. K. Khanna & C. E. G. Justo 4. Pavement Analysis and Design by Y. H. Huang 5. Relevant I. R. C. and AASHTO Codes

CE- 813 Structural Analysis-III CR- 3 1. Energy theorems- Total potential Energy, Complimentary Energy, Simple examples 2. Influence Line Diagram of Indeterminate Beams by Muller-Breslau Principle 3. Plastic Analysis of frames, Upper bound and lower bound theorem simple examples. 4. Matrix Analysis

Flexibility and stiffness methods of analysis for rigid jointed plane frame continuous beam, pin jointed plane frame.

Text Book:

1. Matrix Analysis by Pandit & Gupta

Reference Books:

1 Indeterminate Structure by J. S. Kinney 2 Limit Analysis of Structure by Manick Selvem 3 Statically Indeterminacy Structure by Borg and Grenaro

CE- 814 Bridge Engineering CR - 3 1. Investigation and site selection, hydraulic factors, alignment, traffic aspects, types of bridges; 2. Loading standard, IRC specification, Impact factor, 3. General design consideration, Structural design of highway and railway bridges in reinforced, pre-stressed concrete

and steel; 4. Superstructures: Slab bridge, beam and slab bridge, plate girder and composite bridges, Bearings and expansion

joints, 5. Bridge foundation: types of foundation, design of well and pile foundation,

6. Bridge vibration: traffic loading, seismic and wind effect.

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Text Books:

1. Design of Bridge Structures by T. R. Jagadeesh and M. A. Jayaram

2. Design of Concrete Bridges by M. G. Aswani, V. N. Vazirani, M. M. Ratwani

Reference Books:

1. Essentials of Bridge Engineering” by D. J. Victor

2. Design of Bridges” by N. Krishna Raju

3. Concrete bridge Practice: Analysis, Design and Economics” by V. K. Raina

4. Dynamics of Railway Bridges” by L. Fryba

CE-821 Water Power Engineering CR- 3 1. Concept of water power Engineering , Different heads such as Gross head, Effective head, Design head, rated head,

critical head, classifications of water power plants based on hydraulic characteristics, topography, head , capacity of plant, load etc. Major hydroelectric schemes in India.

2. Planning a site selection of hydropower projects according to availability of Quantity and head of water , estimating of power potential using Mass curve and flow duration curves Economics of water power plants load factor, capacity factor, load curve, effect of pondage on flow duration curve. Estimation of unit cost of hydro power and comparison with unit cost of stream power station, General planning of hydropower projects.

3. Various types of intake structures. Penstocks of steel pipes economic diameter, number of penstocks wall thickness of steel penstocks, shell theory of design, welded and riveted steel pipes, Accessories of penstocks. Expansion joints anchor blocks and pipe supports. Tunnels. Dimensions and shape economic size of tunnel Tunnel lining.

2. Theory of water hammer, Arithmetic integration and graphical method of analysis, surge tanks and types of surge tanks theory of simple surge tank and design, Mathematical treatment f water surface oscillations including friction. Pressure relief valves stability of surge tank. Thoma formula, Balancing reservoir and fore bays Pressure.

3. Selection of type of turbines according to head & specific speed, various types casing of turbines. Determination of their shapes, main relative dimension of runner. Draft tube, its functions, draft tube theory. In take conduits, Preliminary power house dimensioning, general arrangement of power house.

Text Book:

1. A Text book of Water Power Engineering by R. K. Sharma & T. K. Sharma

Reference Books:

1 Water Power Engineering by Barrows 2 Irrigation Water Resource & Water Power Engineering by P. N. Mode 3 Water Power Engineering by M. M. Dandikar

CE- 822 Water Resources Systems CR - 3 1. Objective of water resources development, economic analysis and discounting techniques 2. Conditions of project optimality, graphic optimization techniques for multipurpose projects 3. Analytical optimization techniques for water resources projected by linear programming, non-linear programming

and dynamic programming, optimization by simulation, mathematical models for large scale multipurpose projects, different case studies

4. Stochastic optimization techniques, water quality subsystems 5. Optimum operation model for reservoir systems by incremental dynamic programming, sequencing of multipurpose

project.

Reference Books:

1. Design of Water by Arthur Mass et.al. 2. Resources Systems by MacMillan 3. Economics of Water Resources Planning by L.D. James and R. R. Leo 4. Water Resources Systems Engineering by W.A. Hall and J.A. Dracup

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CE-823 Building Services Planning CR- 3 1. Components of urban forms and their planning, 2. Concepts of neighborhood unit, Street system and layout in a neighborhood, Functional planning of buildings, 3. Optimization of space; Spatial Synthesis graphical techniques, heuristic procedures, formulation of linear and non-

linear optimization problem. 4. Space requirements and relationships for typical buildings, like residential offices, hospitals, etc. Standard fire, fire

resistance, 5. Classification of buildings, means of escape, alarms, Engineering services in a building as a systems, Lifts,

escalators, cold and hot water systems, waster water systems, and electrical systems.

Reference Books:

1. Environmental Control Systems by Mooref

2. Building Services by Peter R.Smith and Warren G. Jullian

3. Hand book of Buildings and Enclosure by A. J. Elder and Martix Vinder Bary

4. The fire Precautions Act in Practices 1987 by Janetaylor and Gordin Coone

CE-824 Remote Sensing & GIS CR - 3 1. Introduction to Remote Sensing system: data acquisition and processing, Applications, Multi concept in remote

sensing. 2. Physical Basis of Remote Sensing: EMR nature, definition, nomenclature and radiation laws; 3. Interaction in atmosphere-nature, its effects in various Wave-length regions, atmospheric windows; Interaction at

ground surface soils Geometric basis of interaction. 4. Platform and Sensors: Terrestrial, aerial and space platforms, Orbital characteristics of space platforms, sun- and

geo-synchronous; Sensor systems-radiometers, opto-mechanical and push broom sensor; 5. Resolution : spectral, spatial, radiometric and temporal; IFOV, FOV, GRE; geometric characteristics of scanners,

V/H and S/N ratio; Data products from various air and spaceborne sensors-aerial photographs, LiDAR, Landsat, SPOT, IRS, ERS, IKONOS etc.,

6. Image Interpretation: elements of interpretation; digital image processing and interpretation; Field verification. 7. Geographical Information systems: components of GIS-data acquisition, spatial and attribute data, pre-processing,

storage and management; data structures raster and vector data; 8. GIS analysis functions; Errors and corrections; data presentation and generation of thematic maps. Reference Books: 1. Remote Sensing and GIS by A. M. Chandra and S. K. Ghosh 2. Remote Sensing and Image Interpretation by T. M. Lillisand, R. W. Kaifer and J.W. Chipman. 3. An Introduction to GIS by I. Heywood, S. Cornelius and S. Carver

CE- 831 Environmental Impact Assessment & Auditing CR - 3 1. Evolution of EIA; EIA at project; Regional and policy levels; Strategic EIA; EIA process; Screening and scoping

criteria; Rapid and comprehensive EIA;

2. Specialized areas like environmental health impact assessment; Environmental risk analysis; Economic valuation methods; Cost-benefit analysis; Expert system and GIS applications; Uncertainties; Practical applications of

3. EIA; EIA methodologies; Baseline data collection; Prediction and assessment of impacts on physical, biological and socio-economic environment;

4. Environmental management plan; Post project monitoring, EIA report and EIS; Review process.

5. Case studies on project, regional and sectoral EIA; Legislative and environmental clearance procedures in India and other countries, Siting criteria; CRZ; Public participation;

6. Resettlement and rehabilitation. Environmental auditing

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Reference Books: 1. Introduction to Environmental Impact Assessment: A Guide to Principles and Practice by B. M. Noble, 2. Introduction to Environmental Impact Assessment: Principles, and Procedures, Process, Practice and Prospects

(The Natural and Built Environment Series), Routledge by J. Glasson. 3. Methods of Environmental Impact Assessment (The Natural and Built Environment Series) by P. Morris. 4. Environmental Assessment by R. K. Jain, L. V. Urban, G. S., Stacey, Harold, E. Balbach.

CE- 832 Construction Methods & Equipments CR - 3 1. Factors affecting selection of equipment technical and economic, 2. construction engineering fundamentals, Analysis of production output and costs, 3. Characteristics and performances of equipment for Earth moving, Erection, Material transport, Pile driving,

Dewatering, 4. Concrete construction (including batching, mixing, transport, and placement) and Tunneling.

Reference Books: 1. Construction Planning , Equipment and Methods by R. L. Peurifoy, P.E Clofford ,J Sehexnayder, 2. Construction Equipment and Job Planning by S. V. Deodhar 3. Construction Equipment and Management by S. C. Sharma 4. Construction Equipment and its Planning and Application by Mahesh Verma 5. Construction Planning and Equipment” by Satyanarayana and Saxena 6. “Heavy Construction” by Vazirani and Chandolu .

CE-833 Construction Engineering Practices CR - 3

1. Concrete construction methods; form work design and scaffolding, slip form and other moving forms, pumping of concrete and grouting, mass concreting (roller compacted concrete), ready mixed concrete.

2. Various methods of placing and handling concrete, Accelerated curing, hot and cold weather concreting, under water concreting, pre-stressing,

3. Steel and composites construction methods; Fabrication and erection of structures including heavy structures, Prefab construction, Industrialized construction, Modular coordination,

4. Special construction methods, Construction in Marine environments, high rise construction, Bridge construction including segmental construction,

5. incremental construction and push launching techniques, River valley projects

Reference Books:

1. Formwork for Concrete Structures by Robert L .Peurifoy and Garold D.Oberiender

1. Formwork for Concrete

Special Publication No-4 (Fifth Edition) by M. K. Hurd

2. Guide for Concrete Formwork.

American Concrete Institute. Box No 19150, Detroit, Michigan-48219.

CE-834 Cost Effective Housing CR - 3 1. Income based classification of population. High, Middle, Low Income group and economically weaker section. 2. Basic shelter issues in India. Mindset of low income group and economically weaker section people. Problems

associated with this group with relation to land, living condition and dwelling standards; Recommendation of housing and urban development corporation. ;

3. Traditional materials and techniques (rammed earth, sun dried bricks, wood, bamboo, jute); Alternate and developed methods / materials of construction: pressed soil blocks, use of stabilized soil, soil cement blocks, fly ash brick, by-product gypsum, foundation, arch foundation, walling- rat trap bond, roofing- filler slabs. Precast blocks and their use.

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4. Laurie Baker’s experiments in low cost housing. ; Modular constructions. Experimental observations/findings of CBRI.

5. Use of cost effective technologies (CECT) in building constructions, stub foundation, Rat trap bond (walls), brick arches (alternates to lintels) filler slab (roof). Use of Ferro cement. ;

6. Cost effective housing for natural disaster mitigation. Reference Books: 1. Low cost Housing Technology by L. J. Goodman, R. P. Lama, R. Rajani, F. J. Burian. 2. International Association for Earthquake Engg., Guidelines for Earthquake Resistant Non-Engineered

Construction. 3. Houses- How to reduce the building cost, Centre of science & technology for Rural Development by L. Baker, COSTFORD Ayanthple, Thrissur-68003, Kerala

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COMPUTER SCIENCE & ENGINEERING COURSES

CS-101/201 Computer Systems & Programming CR-3 Fundamentals of Computer

Basic concepts of computer organizations. CPU. Memory. I/O units such as hard disk, floppy disk, pen drives, CD ROM/Writer, scanner, printers, keyboards etc. Number System Representation.

Introduction to programming languages

Evolution of programming languages, structured programming, the compilation process, object code, source code, executable code, operating systems, interpreters, linkers, loaders, fundamentals of algorithms, flow charts.

C Language Fundamentals

Character set, Identifiers, Keywords, Data Types, Constant and Variables, Statements, Expressions, Operators, Precedence of operators, Input-output Assignments, Control structures, Decision making and Branching, Decision making & looping.

C Functions

User defined and standard functions, Formal and Actual arguments, Functions category, function prototypes, parameter passing, Call-by-value, Call-by-reference, Recursion, Storage Classes.

Arrays and Strings

One dimensional Array, Multidimensional Array declaration and their applications, String Manipulation.

Pointers

Pointer variable and its importance, Pointer Arithmetic, passing parameters by reference, pointer to pointer, linked list, pointers to functions, dynamic memory allocation.

Structures, Unions

Declaration of structures, declaration of unions, pointer to structure & unions.

File Handling

Console input output functions, Disk input output functions, Data files.

Additional Features in C

Command line arguments, bit wise operators, enumerated data types, type casting, macros, the C preprocessor, more about library functions.

Text Books

1. Programming in C - Gottfried B.S., TMH

2. The ‘C’ programming language - B.W.Kernighan, D.M.Ritchie, PHI

Reference Books

1. Programming in ANSI C - Balaguruswami, TMH

2. C The Complete Reference - H.Sohildt, TMH

3. Let us C - Y.Kanetkar, BPB Publications

4. A Structured Programming Approach using C – B.A. Forouzan & R.F. Gillberg, THOMSON Indian Edition

5. Computer fundamentals and programming in C – Pradip Dey & Manas Ghosh, OXFORD

CS-301 Data Structures & Algorithms CR-4 Introduction: Basic Terminology: Elementary Data Organization, Data Structure Operations, Abstract Data Types, Analysis of Algorithms, Time-Space Trade off.

Arrays: Array Definition and Analysis, Representation of Linear Arrays in Memory, Traversing of Linear Arrays, Insertion and Deletion, Single Dimensional Arrays

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Stacks and Queues: ADT Stack, Array Implementation Multiple Stacks, Applications of Stacks: Conversion from Infix to Postfix, Evaluation of Postfix Expressions, Prefix Notation, etc. ADT queue, Linear Queue, Circular Queue, Priority Queue, Array Implementations of Queues, Applications of Queues.

Linked Lists: Singly linked lists: Representation of linked lists in memory, Traversing, Searching, Insertion into, Deletion from linked list, Linked Stacks and Queues. Polynomial Addition, Header nodes, Doubly linked list. Circular Linked Lists.

Trees: Tree Terminology, ADT Binary Tree, Binary Tree Implementations, Binary Tree Traversals, Threaded Binary Tree, Binary Search Tree, AVL Tree, Suitable Applications of Binary Trees. B Tree, B+ Tree.

Sorting: Selection Sort, Bubble Sort, Insertion Sort, Quick Sort, Merge Sort, Heap Sort, Performance and Comparison of sorting Techniques, Hashing.

Graph: Terminology and Representations, Graph search and traversal

Text Book:

1. Fundamentals Of Data Structures In C, Horowitz, Sahni , Universities Press

Reference Books:

1. Classic Data Structures, Debasis Samanta ,Prentice-hall Of India Pvt Ltd 2. Data Structures Using C & C++, Y.Langsam,M.j.Augenstein,Aaron M.Tanenbaum,PHI 3. Data Structures: A Pseudocode Approach with C, 2nd Ed. By Richard F.Gilberg & Behouz A.Forouzan.”,THOMSON

publication. CS401/501 Operating Systems CR-4 Introduction: Operating system and functions, Evolution of operating system, Batch, Interactive, Time Sharing , Real Time System, Multi-Threading System.

Operating System Structure: System Components, System structure, Operating System Services.

Concurrent Processes: Process concept, Principle of Concurrency, Critical Section problem, Semaphores, Classical problems in Concurrency, Inter Process Communication, Introduction to monitor, Process Generation, Process Scheduling.

CPU Scheduling: Scheduling Concept, Performance Criteria Scheduling Algorithm, Evolution, Multiprocessor Scheduling.

Deadlock: System Model, Deadlock Characterization, Prevention, Avoidance and Detection, Recovery from deadlock combined approach.

Memory Management: Resident monitor, Multiprogramming with fixed partition, Multiprogramming with variable partition, Multiple base register, Paging, Segmentation, Virtual memory concept, Demand paging, Performance, Page replacement algorithms, Allocation of frames, Thrashing, Cache memory, Organization, Impact on performance.

I/O Management & Disk Scheduling: I/O devices and organization of I/O function, I/O Buffering, DISK I/O, Operating System Design Issues.

File System: File Concept, File Organization and Access Mechanism, File Directories, File Sharing, Implementation Issues.

Operating system Protection & Security, Introduction to distributed operating system, Case Studies - The UNIX operating system,

Text Book:

1. Operating System Concepts, A. Silverschwatz, P. Galvin & G.Gange , Willey

Reference Books:

1. Operating System Concepts, Milenekovic, McGraw Hill

2. An introduction to operating system, Dietel, Addision Wesley

3. Operating system design and implementation, Tannenbaum, PHI

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CS-402 Database Management Systems CR-4

Introduction

General introduction to database systems; Database - DBMS Definition, approaches to building a database, data models, three-schema architecture of a database, challenges in building a DBMS, various components of a DBMS.

Relational Data Model

Concept of relations and its characteristics, schema-instance, integrity constraints, E/R Model - Conceptual data modeling - motivation, entities, entity types, various types of attributes, relationships, relationship types, E/R diagram notation, Extended E/R Model, Converting the database specification in E/R and Extended E/R notation to the relational schema. Data Storage and Indexes - file organizations, primary, secondary index structures, hash-based indexing, dynamic hashing techniques, multi-level indexes, B+ trees.

Relational Query Language

Relational Algebra operators: selection, projection, cross product, various types of joins, division, example queries, tuple relation calculus, domain relational calculus, QBE. Introduction to SQL, Data definition in SQL, Table, Key and Foreign key definitions, Data manipulation in SQL. Nested queries, Notion of aggregation, PL/SQL.

Relational Database Design

Dependencies and Normal forms - Importance of a good schema design, problems encountered with bad schema designs, motivation for normal forms, dependency theory - functional dependencies, Armstrong's axioms for FD's, closure of a set of FD's, minimal covers, definitions of 1NF, 2NF, 3NF and BCNF, decompositions and desirable properties of them, algorithms for 3NF and BCNF normalization, multi-valued dependencies and 4NF, join dependencies and definition of 5NF.

Transaction Processing

Concepts of transaction processing, ACID properties, concurrency control, locking based protocols, recovery and logging methods.

Text Books:

1. Database System Concepts by Sudarshan, Korth (McGraw-Hill Education)

2. Fundamentals of Database System By Elmasari & Navathe- Pearson Education

Reference Books:

1. An introduction to Database System – Bipin Desai, Galgotia Publications

2. Database Management System by Leon & Leon (Vikas publishing House).

3. Database Modeling and Design: Logical Design by Toby J. Teorey, Sam S. Lightstone, and Tom Nadeau, 4th Edition, 2005, Elsevier India Publications, New Delhi

4. Fundamentals of Database Management System – Gillenson, Wiley India.

CS-403 Principles of Programming Languages CR-4 The study of programming languages: A short history of programming languages, what makes a good language, effects of environment on languages.

Language design issues: The structure and operation of a computer, virtual computers and binding times, language paradigms.

Language translation issues: Programming language syntax, stages in translation, formal translation models.

Data types: Properties of types and objects, elementary data types, structured data types.

Abstract data type: Abstract data types, encapsulation by subprograms, type definition, storage management.

Advances in language Design: Variations on subprogram control, parallel programming, formal properties of languages, language semantics, Hardware development, software architecture.

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Paradigms and languages: Simple procedural languages, block structured procedural languages, object based languages, functional languages, logic programming language.

Text Books:

1. Programming languages: Design and Implementation, Terrence W. Pratt & Marvin V. Zelkowitz, Pearson Addison Wesley Publication

2. Programming languages: Concept and Construct, Ravi Sethi, Pearson Addison Wesley Publication

Reference Books:

1. Programming languages: Principle and paradigm, Allen B Tucker & Robert Noonan, McGraw Hill.

2. Principle of Programming Language by Hurwitz Sahani, Galgotia Publication

CS-502 Design & Analysis of Algorithms CR-4 Introduction: Algorithm Design paradigms- motivation, concept of algorithmic efficiency, run time analysis of algorithms, Asymptotic Notations.

Divide and conquer: Structure of divide-and-conquer algorithms, max-min problem, Binary search, quick sort, randomized quick sort, merge sort, Analysis of divide and conquer run time recurrence relations.

Greedy Method: Overview of the greedy paradigm ,knapsack problem, Optimal storage on tapes, Job sequencing with deadlines, Activity selection problem, minimum cost spanning tree, Single source shortest path, Huffman’s code.

Dynamic programming: Overview, difference between dynamic programming and divide and conquer, Applications: 0/1 knapsack, Shortest path in graph, Matrix chain multiplication, Traveling salesman Problem, longest Common sub-sequence.

Graph searching and Traversal: Overview, Traversal methods (depth first and breadth first search)

Back tracking: Overview, 8-queen problem, sum of subset, and Knapsack problem

Brach and bound: LC searching Bounding, FIFO branch and bound, LC branch and bound application: 0/1 Knapsack problem, Traveling Salesman Problem

Computational Complexity: Complexity measures, Polynomial Vs non-polynomial time complexity; NP-hard and NP-complete classes, examples, Approximation Algorithm for travelling sales person problem.

Text Books:

1. T. H. Cormen, Leiserson, Rivest and Stein, “Introduction of Computer algorithm,” PHI 2. 1. E. Horowitz, S. Sahni, and S. Rajsekaran, “Funadmentals of Computer Algorithms,” Galgotia Publication

Reference Books:

1. Sara Basse, A. V. Gelder, “ Computer Algorithms,” Addison Wesley 2. Algorithm Design:Foundation, Analysis&Internet examples By Michael T.Goodrich, Roberto Tamassia , John

Wiley & Sons

CS-503/ 603 Microprocessors and Interfacing CR-4 Overview of Microcomputer Structure and Operation, Microprocessor Evolution and Types, 8086 Internal Architecture. 8086 Instruction Description and Assembler Directives, 8086 Family Assembler Language Programming – Instruction Templates, MOV Instruction Coding Format and Examples, MOV Instruction Coding Examples, Writing Programs for use with an Assembler, Assembly Language Program Development Tools

Implementing Standard Program Structures in 8086 Assembly Language: Simple Sequence Programs, Jumps, Flags, and Conditional Jumps, If-Then, If-Then-Else, and Multiple If-Then-Else Programs, While-Do Programs, Repeat-Until Programs, Instruction Timing and Delay Loops

Strings, Procedures, and Macros: The 8086 String Instructions, Writing and Using Procedures, Writing and Using Assembler Macros

8086 System Connections Timing: A Basic 8086 Microcomputer System, Addressing Memory and Ports in Microcomputer Systems, 8086 and 8088 Addressing and Address Decoding, How the 8088 Microprocessor Accesses Memory and Ports, 8086 Timing Parameters

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8086 Interrupts and Interrupt Applications: 8086 Interrupts and Interrupt Responses, Hardware Interrupt Applications, 8259A Priority Interrupt Controller, Software Interrupt Applications

Digital Interfacing: Programmable Parallel Ports and Handshake Input/output, Methods of Data Transfer, Implementing Handshake Data Transfer, 8255A Internal Block Diagram and System Connections, 8255A Operational Modes and Initialization, Constructing and Sending 8255A Control Words

Text Books:

1. Microprocessors and Interfacing, Douglas V. Hall, Revised 2nd Edition, TMH, 2006.

2. 8086 microprocessor & Architecture by Liu, Gibson; PHI.

Reference Books:

1. Advanced Microprocessors & IBM-PC assembly Language Programming, K.Udaya Kumar & B.S. Umashankar, TMH 2003.

2. The Intel Microprocessors, Barry B. Brey, Pearson/PHI 2006. 7th Edition

3. The Intel Microprocessor Family: Hardware and Software Principles and Applications, James L. Antonakos, Thomson, 2007.

4. Microprocessors and Microcomputer- Based System Design, M. Rafiquzzaman, UBS Publication.

CS-504 Theory of Computation CR-4 Introduction: Automata Theory, Complexity Theory, Computability Theory. Mathematical Notations: sets, sequences and tuples, Functions and relations, Graphs, strings and languages, Boolean logic. Definitions, Theorems and proofs: Finding proofs. Types of Proof: Proof by Induction, Proof by contradiction and Proof by construction.

Finite Automata: Formal Definition of finite automaton, formal definition of computation, Designing finite automata, regular operations. Non-determinism: Formal definition of NFA, equivalence of NFAs and DFAs, Formal definition of Regular Expression, Equivalence of regular expression with Finite automata, Minimization of Finite automata, Mealy and Moore machine.

Basic Definition of formal languages and grammars, Chomsky classification of languages, Regular sets and regular grammars, Closure properties of regular sets, pumping lemma of regular sets.

Formal definition of CFG, Designing Context free grammar, Derivation tree, Ambiguity, simplification of context free grammars (removal of useless symbols, removal of ∈-productions, removal of unit production, CNF, GNF), Formal Definition of PDA, Equivalence with CFG, Pumping lemma for Context free languages.

The Church-Turing Thesis: Turing Machine formal definition, Variants of Turing machine (Multi-tape Turing Machine, Nondeterministic TM, Enumerators, Equivalence with other models. Decidability: Decidable Languages, Decidable problems concerning regular languages and CFG, The halting problem ( Diagonalization method, the halting problem is undecidable, A Turing unrecognizable language). Reducibility: Undecidable problems from Language theory, a simple undecidable problem, mapping reducibility.

Text Books:

1. Introduction to the Theory of Computation, Michel Sipser, Thomson Brooks/Cole

Reference Books:

1. Introduction to Automata Theory Languages and Computation, J.E. Hopcroft, R Motwani and J.D. Ullman, Pearson Education.

2. The Theory of Computation, Bernard M. Moret, Pearson Education 3. An Introduction to Formal Languages and Automata, Peter Linz, Jones & Bartlett Publishers 4. Theory of Computer Science, K L P Mishra and Chandrasekhran, PHI

CS-505/605 Computer Organization and Architecture CR-4 Basic Structure of Computers: Computer Types, Functional Units, Basic Operational Concepts, Bus Structures, Machine Instructions and Programs: Memory Location and Addressing mechanism, Memory Operations, Instructions and Instruction Sequencing.

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Assembly Language, Basic Input and Output Operations, Subroutines, Additional Instructions, Encoding of Machine Instructions , Addressing Modes, Types of instruction, instruction format, Instruction length.

Basic Processing Unit: Some Fundamental Concepts, Execution of a Complete Instruction, Single and Multiple Bus Organization, Hard-wired Control, Micro programmed Control unit.

Arithmetic: Multiplication of Positive Numbers, Signed Operand Multiplication, Fast Multiplication, Integer Division, Floating-point Numbers and Operations.

Memory System: Basic Concepts, Semiconductor RAM Memories, Read Only Memories, Speed, Size, and Cost, memory module design, Cache Memories – Mapping Functions, Replacement Algorithms, Memory interleaving ,Memory Performance Considerations Virtual Memories,.

Input/ Output Organization: Accessing I/O Devices, Interrupts – Interrupt Hardware, Enabling and Disabling Interrupts, Handling Multiple Devices, Controlling Device Requests, Exceptions, Direct Memory Access. Interface Circuits, Standard I/O Interfaces – PCI Bus, SCSI Bus, USB

Parallel Processing: Flynn’s classification, Introduction to Pipelining and hazards, RISC vs CISC.

Text Book: 1. Computer Organization, Carl Hamacher, Zvonko Vranesic, Safwat Zaky, 5th Edition, TMH, 2002. Reference Book: 1. Computer Organization & Architecture, William Stallings, 7th Edition, PHI, 2006.

CS-601 Compiler Design CR-4 Overview of Compilation: Cousins of the Compiler, Phases of Compilation, Grouping of Phases, Lexical Analysis, Compiler construction tools, Lexical Analysis, Role of Lexical Analyzer, Input Buffering, Specification of Tokens, Finite state machines and regular expressions and their applications to lexical analysis, Implementation of lexical analyzers, LEX lexical analyzer generator.

Syntax Analysis: Context-free grammars, Top-down Parsing – Backtracking, LL(1), recursive descent parsing, Predictive parsing, Bottom-up parsing – Shift Reduce parsing, LR and LALR parsing, Error recovery in parsing, handling ambiguous grammar, YACC – automatic parser generator.

Semantic analysis: Intermediate forms of source Programs – abstract syntax tree, polish notation and three address codes. Attributed grammars, Syntax directed translation, Conversion of popular Programming languages language Constructs into Intermediate code forms, Type checker.

Symbol Tables: Symbol table format, organization for block structures languages, hashing, tree structures representation of scope information. Block structures and non block structure storage allocation: static, Runtime stack and heap storage allocation, storage allocation for arrays, strings and records.

Code optimization: Consideration for Optimization, Scope of Optimization, local optimization, loop optimization, frequency reduction, folding, DAG representation.

Data flow analysis: Flow graph, data flow equation, global optimization, redundant sub expression elimination, Induction variable elements, Live variable analysis, Copy propagation. Object code generation: Object code forms, machine dependent code optimization, register allocation and assignment generic code generation algorithms, DAG for register allocation. Text Book:

1. Compilers- Principles, Techniques and Tools, By A.V. Aho, M.S. Lam, R Sethi and J.D.Ullman, Pearson Education.

Reference Books: 1. lex &yacc – John R. Levine, Tony Mason, Doug Brown, O’reilly 2. Engineering a Compiler, by Cooper & Linda, Elsevier. 3. Compiler Construction, K.C. Louden, Thomson Brooks/Cole.

CS-701 Artificial Intelligence CR-4 Introduction: Overview; Foundation; History; The State Of Art.

Intelligent Agents: Agents and environment; Rationality; The nature of environment; The structure of agents.

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Solving Problems by Searching: Problem-solving agents; Example problems; Searching for solution; Uninformed search strategies.

Informed Search and Exploration: Informed search strategies; Heuristic functions; On-line search agents and unknown environment.

Constraint Satisfaction Problems: Constraint satisfaction problems; Backtracking search for CSPs.

Adversial search: Games; Optimal decisions in games; Alpha-Beta pruning.

Logical Agents: Knowledge-based agents; The wumpus world as an example world; Logic; Propositional logic Reasoning patterns in propositional logic; Effective propositional inference; Agents based on propositional logic.

First-order Logic: Representation revisited; Syntax and semantics of first-order logic; Using first-order logic; Knowledge engineering in first-order logic.

Inference in First-Order Logic: Propositional versus first-order inference; Unification and lifting; Forward chaining; Backward chaining; Resolution.

Knowledge Representation: Ontological engineering; Categories and objects, Actions, situations, and events; Mental events and mental objects; The Internet shopping world; Reasoning systems for categories; Reasoning with default information; Truth maintenance systems.

Planning: The planning problem; Planning with state-space approach; Planning graphs; Planning with propositional logic.

Text Book:

1. Artificial Intelligence: A Modern Approach – Stuart Russel, Peter Norvig, 2nd Edition, Pearson Education, 2003.

Reference Books:

1. Artificial Intelligence - Elaine Rich, Kevin Knight and Shivashankar B Nair, 3rd Edition, Tata McGraw Hill.

2. Principles of Artificial Intelligence – Nils J. Nilsson, Elsevier, 1980.

CS-706 Parallel and Distributed Computing CR-4

Introduction to parallel computing: Motivation, scope and issues.

Parallel Programming Platforms: Trends in microprocessor Architectures, Dichotomy of parallel Computing platforms, physical Organization of parallel platforms, communication costs in parallel Machines, Routing Mechanisms for interconnection Network, Impact of Process Processors mapping and mapping Techniques.

Principles of parallel Algorithm Design: Preliminaries, Decomposition Techniques, Characteristics of Tasks and Interactions, Mapping Techniques for load Balancing, Methods for containing interaction overheads, Parallel Algorithm Models.

Basic Communication Operations: One-to-All Broadcast and All-to-One Reduction, All-to-All Broadcast and reduction All-Reduce and Prefix sum operations, scatter and Gather, All-to-All personalized communication, circular shift, improving the speed of some communication operation.

Analytical Modeling of Parallel Programs: Performance Metrics for Parallel systems, Effect of Granularity of Performance, scalability of parallel system, Minimum Execution Time and Minimum Cost-optimal execution Time, Asymptotic Analysis of parallel Programs, other scalability Metrics.

Programming Using the message passing Paradigm: Principle of Message – Passing Programming, Send and receive Operations, The message passing Interface, Topologies and Embedding, Overlapping communication with computation, collective communication and computation Operations, Groups and Communicators. Dense Matrix Algorithm

Sorting: Bubble Sort and its variants, Quick Sort.

Graph Algorithms: Minimum Spanning Tree (Prim’s Algorithm) shortest path (Dijkstra’s Algorithm)

Text Book:

1. Introduction to Parallel Computing, Second Edition, Ananth Gram, Anshul Gupta, George Karypis, Vipin Kumar, Person Education.

2. Parallel programming in c with MPI and Open MP, M.J. Quinn, TMH.

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Reference Books:

1. Parallel Computer Architecture and Programming, D.E.Culler,J.P Singh & A Gupta, Morgan Kaufman. 2. Designing and Building Parallel Programs, I.Foster. Addison-Wesley

CS-711 Bio-Informatics CR-4 Molecular Biology Primer: Genetic Material, Function of Genes, Structure of DNA, transcription and translation, Protein structure, DNA analysis, Gene variation, Need of Bioinformatics.

Exhaustive Search: Restriction Mapping, Impractical restriction mapping algorithm, A practical restriction mapping algorithm, Regulatory motifs in DNA Sequences, Profiles, The motif finding problem, Search trees, Finding trees, Finding median string.

Greedy Algorithm: A greedy approach to Motif Finding.

Dynamic Programming Algorithms: The power of DNA sequence comparison, Edit distance and alignments, Longest common sub sequences, Global sequence alignment, Scoring alignments, Local sequence alignments, Alignment with gap penalties, Multiple alignment, Gene Prediction, Statistical approaches to gene prediction, Similarity based approaches to gene prediction, Spliced alignment.

Combinational Pattern Matching: Repeat finding, Hash tables, Exact pattern matching, Keyword trees, Suffix trees, Heuristic similarity search algorithms, Approximate pattern matching, BLAST-Comparing a sequence against a database.

Graph Algorithms: Graphs, Graphs and genetics, DNA sequencing, Shortest super string problem, DNA arrays as an Alternative sequencing technique, Sequencing by hybridization, SBH as an Hamiltonian path problem, SBH as an Eulerian path problem, Fragment assembly in

DNA sequencing.

Clustering and Trees: Gene expression analysis, Hierarchical clustering, k-means clustering, Clustering and corrupted cliques, Evolutionary trees, Distance based tree reconstruction, Reconstructing trees from additive matrices, Evolutionary trees and hierarchical clustering, Character based tree reconstruction, Small parsimony problem, Large parsimony problem.

Text Books:

1. An Introduction to Bioinformatics Algorithms, N.C. Jones & P.A. Pevzner, The MIT Press-2004.

Reference Books:

1. Introduction to Bioinformatics, A. M. Lesk, Oxford University Press.

2. Fundamental concepts of Bioinformatics, D.E. Karne & M.L. Raymer, Benjamin Cummings.

CS-713 Real Time Systems CR-4

Introduction: Real-Time systems, applications of Real-Time systems, basic model of Real-Time systems, characteristics of Real-Time systems, types of Real-Time systems: hard, firm, soft, timing constraints, modeling timing constraints,

Real-Time task scheduling: basic concepts, clock driven scheduling, table driven scheduling, cyclic, schedulers, hybrid schedulers, event driven scheduling, EDF Scheduling, RMA, DMA, resource sharing among RT tasks, Priority inversion, Priority Inheritance Protocol, Highest Locker Protocol, Priority Ceiling Protocol, Scheduling Real-Time tasks in multiprocessor and distributed systems,

Fault-tolerant scheduling of tasks, clocks in distributed Real-Time systems, Commercial Real-Time Operating Systems, timers, UNIX and Windows as RT OS, POSIX, PSOS, VRTX, QNX, RT Linux, other RT OS, benchmarking RT OS, RT communications, QoS framework, models,

Real-Time Communication in a LAN, IEEE 802.4, RETHER, Communication over Packet Switched Networks, Routing algorithms, RSVP, rate control, RT databases, Applications, characteristics of temporal data, Concurrency control, Commercial RT databases.

Text Books:

1. Real-Time Systems Design & Analysis, P. A. Laplante, Willey, 3rd Ed, 2004.

2. Real-Time Systems, R. Mall, Pearson, 2007.

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Reference Books:

1. Real-Time Systems, C. M. Krishna and K. G. Shin, McGraw Hill, reprinted 2004.

2. Real-time Systems, J. W. S.Liu, Pearson Education, 6th impression, 2008.

CS-715 Pattern Recognition CR-4

Introduction: Basics of Pattern Recognition, Statistical and Syntactic Pattern Recognition

Pattern Recognization Methods: Bayes' Decision Theory, Maximum Likelihood Estimation, Nonparametric Techniques, Linear Discriminant Analysis, KL Dimensionality Reduction, Neural Networks for Pattern Recognition, Non-metric Methods, Algorithm Independent Machine Learning, Unsupervised Learning and Clustering, Statistical Learning Theory

Formal Languages & Pattern Recognization: Introduction to Formal Languages, String Languages for Pattern Description, Stochastic Languages for Syntactic Pattern Recognition, Cluster Analysis for Syntactic Patterns

Applications of Pattern Recognization: Data Mining, Web Searching, Handwriting Recognition, Multimedia Data Retrieval, Speech Recognition, Network Traffic Analysis

Text Book:

1. Pattern Classification and Scene Analysis, Duda RO and Hart PE, John Wiley & Sons Reference Books:

1. Pattern Recognition and Image Analysis, Earl Gose, Richard Johnsonbaugh, Steve Jost, Prentice Hall

2. Introduction to Statistical Pattern Recognition, Keinosuke Fukunaga, Academic Press

3. Neural Networks for Pattern Recognition, Christopher M. Bishop, Oxford University Press.

CS-716 Distributed Database Systems CR-4 Introduction: Distributed data processing, what is a DDBMS, Advantages and disadvantages, Architecture, Transparencies in a distributed DBMS, Global directory issues. Distributed Database Design: Alternative design strategies, Distributed design issues, Fragmentation, Data allocation

Query Processing Issues: Objectives of query processing, Characterization of query processors, Layers of query processing, Query decomposition, Localization of distributed data. Optimizing Distributed Queries Factors governing query optimization, Centralized query optimization, ordering of fragment queries, optimization algorithms for a distributed query processing environment.

Distributed Object Management Object model features, Fundamental object management issues, DOM architectures, Object caching, Object clustering, Object migration, Distributed object base systems

Transaction Management: The transaction concept, Goals of transaction management, Characteristics of transactions, Taxonomy of transaction models. Concurrency Issues in a distributed environment.

Text Books:

1. Distributed Databases Principles and Systems, S. Ceri and G. Pelagatti, McGraw Hill.

2. Principles of Distributed Database Systems, M.T. Özsu and P. Valduriez. - Prentice-Hall.

Reference book:

1. M. Tamer Ozsu, Patrick Valduriez, Principles of Distributed Database Systems (2nd Edition) Pearson Education.

CS-810 Advanced Computer Architecture CR-4 Introduction: Introduction to Parallel Computing, Need for Parallel Computing, Parallel Architectural classification schemes, Flynn’s, Shores, Fengs classification, Performance of Parallel Processors. Amdahl Law Distributed Processing and Quantitative Approach.

Memory: Processor & memory hierarchy, bus, cache & shared memory introduction to super scalar architectures, Quantitative evaluation of performance gain using memory, cache miss/hits.

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Pipeline Processing: Introduction to Pipeline Processing, SIMD parallel processors, Arithmetic pipelines, steady state analysis of pipeline, Pipelined instruction processing, interlocks, hazards, hazards detentions and resolution memory systems used in pipelines, scheduling of dynamic pipelines.

Synchronous Parallel Processing: SIMD Parallel algorithm, recurrence and matrix computations, Distributed array processor, Processor Arrays, Multiprocessors, cache coherence protocols.

Interconnection Network: Introductions, Elementary Permutations used in Interconnection Network, Network Classification Cross bar network, commonly used Interconnection Network, Cross bar, Data Manipulator, Network Routing, Multistage Data Manipulator.

Text Books: 1. Quantitative approach to computer Architecture, Patterson & Hannesy, Morgan Kaufman. 2. Advanced Computer Architecture, Hwang and Briggs, McGraw Hill.

Reference Books: 3. Parallel Computing, Theory and Practices, Quin, McGraw Hill. 4. Parallel Computing, Bhujde, New Age International. 5. Architecture of Computer Hardware & Software System, Englander, Jon Willey & Sons.

CS-812 Simulation and Modeling CR-4 Introduction: When simulation is the appropriate tool and when it is not appropriate; Advantages and disadvantages of Simulation; Areas of application; Systems and system environment; Components of a system; Discrete and continuous systems; Model of a system; Types of Models; Discrete-Event System Simulation; Steps in a Simulation Study. Simulation examples: Simulation of queuing systems; Simulation of inventory systems; Other examples of simulation.

General Principles, Simulation Software: Concepts in Discrete-Event Simulation: The Event-Scheduling / Time-Advance Algorithm; World Views; Manual simulation Using Event Scheduling; List processing. Simulation in Java; Simulation in GPSS.

Statistical Models In Simulation: Review of terminology and concepts; Useful statistical models; Discrete distributions; Continuous distributions; Poisson process; Empirical distributions.

Queuing Models: Characteristics of queuing systems; Queuing notation; Long-run measures of performance of queuing systems; Steady-state behavior of M/G/1 queue; Networks of queues.

Random-Number Generation, Random-Variate Generation: Properties of random numbers; Generation of pseudo-random numbers; Techniques for generating random numbers; Tests for Random Numbers. Random-Variate Generation: Inverse transform technique; Acceptance-Rejection technique; Special properties.

Input Modeling: Data Collection; Identifying the distribution with data; Parameter estimation; Goodness of Fit Tests; Fitting a non-stationary Poisson process; Selecting input models without data; Multivariate and Time-Series input models

Output Analysis For A Single Model: Types of simulations with respect to output analysis; stochastic nature of output data; Measures of performance and their estimation; Output analysis for terminating simulations; Output analysis for steady-state simulations.

Verification and Validation of Simulation Models, Optimization: Model building; verification and validation; Verification of simulation models; Calibration and validation of models. Optimization via Simulation.

Text book: 1. Discrete-Event System Simulation, Jerry Banks, John S. Carson II, Barry L. Nelson, David M. Nicol, Pearson

Education, 2007. Reference books:

1. Discrete – Event Simulation: A First Course – Lawrence M. Leemis, Stephen K. Park, Pearson Education/ Prentice-Hall India, 2006.

2. Simulation, Sheldon M. Ross, Elsevier, 2006. 3. Simulation Modeling and Analysis – Averill M. Law, Tata McGraw-Hill, 2007.

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CS-813 Embedded Systems CR-4 Embedded Computing: Introduction, Complex Systems and Microprocessor, Embedded System Design Process, Formalisms for System Design, Design Examples.

The 8051 Architecture: Introduction, 8051 Micro controller Hardware, Input/Output Ports and Circuits, External Memory, Counter and Timers, Serial data Input/Output, Interrupts.

Basic Assembly Language Programming Concepts:

The Assembly Language, Programming Process, Programming Tools and Techniques, Programming the 8051, Data Transfer and Logical Instructions, Arithmetic Operations, Decimal Arithmetic. Jump and Call Instructions, Further Details on Interrupts.

Applications: Interfacing with Keyboards, Displays, D/A and A/D Conversions, Multiple Interrupts, Serial Data Communication.

Introduction to Real-Time Operating Systems: Tasks and Task States, Tasks and Data, Semaphores, and Shared Data; Message Queues, Mailboxes and Pipes, Timer, Functions, Events, Memory Management, Interrupt Routines in an RTOS Environment

Basic Design Using a Real-Time Operating System: Principles, Semaphores and Queues, Hard Real-Time Scheduling Considerations, Saving Memory and Power, An example RTOS like uC-OS (Open Source); Embedded Software Development Tools: Host and Target machines, Linker/Locators for Embedded Software, Getting Embedded, Software into the Target System.

Debugging Techniques: Testing on Host Machine, Using Laboratory Tools, An Example System.

Introduction to advanced architectures: ARM and SHARC, Processor and memory organization and Instruction level parallelism; Networked embedded systems: Bus protocols, I2C bus and CAN bus; Internet-Enabled Systems, Design Example-Elevator Controller.

Text Books:

1. Computers and Components, Wayne Wolf, Elseveir. 2. The 8051 Microcontroller, Third Edition, Kenneth J.Ayala, Thomson. 3. An Embedded Software Primer, David E. Simon, Pearson Education.

Reference Books:

1. Embedding system building blocks, Labrosse, via CMP publishers. 2. Embedded Systems, Raj Kamal, TMH. 3. Micro Controllers, Ajay V Deshmukhi, TMH. 4. Embedded System Design, Frank Vahid, Tony Givargis, John Wiley. 5. Microcontrollers, Raj Kamal, Pearson Education.

CS-816 Natural Language Processing CR-4 Introduction: Basic Probability & Information Theory: Introduction to NLP, Main Issues, Basics on Probability Theory, Elements of Information Theory, Language Modeling in General and Noisy Channel Model, Smoothing and EM Algorithm.

Linguistics: Phonology and Morphology, Syntax (Phrase Structure vs. Dependency).

Words & Lexicon: Word Classes and Lexicography, Mutual Information, The t-score, The Chi-square Test, Word Classes for NLP Tasks, Parameter Estimation, Partitioning Algorithm, Complexity Issues of Word Classes, Programming Tricks & Tips.

Hidden Markov Models & Tagging: Markov Models, Hidden Markov Models (HMMs), Trellis Algorithm, Viterbi Algorithm. Estimating the Parameters of HMMs, The Forward-Backward Algorithm, Implementation Issues, Task of Tagging, Tagsets, Morphology, Lemmatization, Tagging Methods, Manually Designed Rules and Grammars, Statistical Methods, HMM Tagging (Supervised, Unsupervised), Evaluation Methodology (examples from tagging), Precision, Recall, Accuracy, Statistical Transformation Rule-Based Tagging, Maximum Entropy, Maximum Entropy Tagging, Feature Based Tagging, Results on Tagging, Various Natural Languages.

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Grammars & Parsing Algorithms: Introduction to Parsing, Generative Grammars, Properties of Regular and Context-free Grammars, Overview on Non-statistical Parsing Algorithms, Simple Top-Down Parser with Backtracking, Shift-Reduce Parser, Treebanks and Treebanking, Evaluation of Parsers, Probabilistic Parsing. PCFG: Best Parse, Probability of String.

Statistical Parsing & Machine Translation: Lexicalized PCFG, Statistical Machine Translation (MT), Alignment and Parameter Estimation for MT.

Text Book:

1. Foundations of Statistical Natural Language Processing, Manning, C. D. and H. Schutze, The MIT Press.

Reference Books:

1. Speech and Language Processing, Jurafsky, D. and J. H. Martin, Prentice-Hall. 2. Natural Language Understanding, Allen, J., The Benajmins/Cummings Publishing Company Inc. 3. Elements of Information Theory, Cover, T. M. and J. A. Thomas, Wiley. 4. Statistical Language Learning, Charniak, E., The MIT Press. 5. Statistical Methods for Speech Recognition, Jelinek, F., The MIT Press.

CS-650 Computer Organization and Operating System CR-4 Basic Structure of Computers: Computer Types, Functional Units, Basic Operational Concepts, Bus Structures, Machine Instructions and Programs, Memory Location and Addressing mechanism-Big and Little Endian, Memory Operations, Instructions and Instruction Sequencing.


Arithmetic: Fast Multiplication, Integer Division, Floating-point Numbers and Operations.

Memory System: Types of memory, Memory hierarchy, Cache Memories – Mapping Functions, Memory interleaving, Virtual Memories.

Introduction to OS: Operating system and functions, Evolution of operating system, Batch, Interactive, Time Sharing , Real Time System, Multi-Threading System, System Components, System structure, Operating System Services. Process Concept: Scheduling Concept, Performance Criteria Scheduling Algorithms, introduction to deadlock. Text Books: 1. “Computer Organization”, Carl Hamacher, Zvonko Vranesic, Safwat Zaky, 5thEdition, TMH, 2002. 2. “Operating System Concepts”, A.Silverschwatz,P.Galvin& G.Gange , , Willey Reference Books: 1. Milenekovic, “Operating System Concepts”, McGraw Hill 2. Dietel, “An introduction to operating system”, Addision Wesley 3. “Operating system design and implementation”, Tanenbum,PHI CS-651 Computer Architecture CR-4 Basic Structure of Computers: Computer Types, Functional Units, Basic Operational Concepts, Bus Structures, Machine Instructions and Programs, Memory Location and Addressing mechanism-Big and Little Endian, Memory Operations, Instructions and Instruction Sequencing.


Arithmetic: Fast Multiplication, Integer Division, Floating-point Numbers and Operations.

Memory System: Types of memory, Memory hierarchy, Cache Memories – Mapping Functions, Memory interleaving, Virtual Memories.

Text Book:

1. “Computer Organization”, Carl Hamacher, Zvonko Vranesic, Safwat Zaky, 5thEdition, TMH, 2002.

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INFORMATION TECHNOLOGY COURSES

IT-301 Object Oriented Programming CR-4

Object oriented paradigm: Evolution of programming paradigm, structured versus object-oriented development, elements of object-oriented programming, objects, classes, encapsulation and data abstraction, inheritance, delegation – object composition, polymorphism, exception handling.

Moving from C to C++ : Introduction, streams based I/O, scope resolution operator (::), variable definition at the point of use, variable aliases-reference variables, strict type checking, parameters passing by reference, inline function, function overloading, default arguments,

Object and Classes: Specifying and using classes, private and public data members, constructor and destructor, objects as function arguments, memory considerations for objects, new and delete operators, functions, static function, friend function.

Inheritance: Derived and base classes, Class hierarchies, public and private inheritance, constructors in derived classes, destructors in derived classes, constructors invocation and data members initialization, classes within classes, container classes.

Polymorphism: Pointer to objects, pointer to derived class, use of this pointer, run time and compile time polymorphism, virtual functions, abstract base classes, pure virtual functions, virtual destructors.

Files and Streams: : Introduction, hierarchy of file stream classes, opening and closing of files, testing for errors, file modes, file pointers and their manipulators, sequential access to a file, I/O with multiple objects.

Exception handling: : Introduction, error handling, exception handling model, exception handling constructs, handler throwing the same exception again, list of exceptions, catch all exceptions, handling uncaught exceptions.

Templates: Class templates with multiple parameters, function template with multiple parameters, components of STL.

Introduction to windows programming.

Text Book:

1. Mastering C++, Venugopal ,Tata Mc Graw Hill

Reference Books:

1. C++ complete reference, Herbert Schildt, TMG Hill 2. Object Oriented Programming In Turbo C ++ , Robert Lafore , Galgotia Publications Pvt Ltd 3. C++ How to Program, Deitel and Deitel ,Pearson Education Asia

IT-401 Web Technology CR-4 Introduction to programming language :Language Design Issues, Importance of Programming language , Language Paradigm ,Characteristic of a good Programming Language, Effects of Environment on Programming Language Design, Hardware computers, Virtual Computers, Firm ware, assembler, linker, loader, complier, interpreter, Binding Times,-Language Translation Issues ,Syntax and semantics, Grammars, Syntax Chart.

HTML, Structure, Commets, Tags used in Head Part, Text formatting tags, images, links, tables, lists, form, frame etc.

Introduction to Java: Java and Java applications; Java Development Kit (JDK); Java Characteristics, Byte Code, JVM, Object-oriented programming, Simple Java programs.

Data types, operators and Expressions, control Statements: Selection statements, iteration statements, Jump Statements.

Classes, Inheritance, Interface, Package, String, Exceptions, Applets: Classes in Java, Declaring a class, Constructors; Creating instances of class, Inner classes. Inheritance, Super classes, sub class, Overriding and overloading, Dynamic method dispatch, Interface , Dynamic method look-up, Package, Class path variable, Exception handling, String Handling, The Applet Class, Applet Architecture, Applet skeleton, Applet life cycle, Using the Status Window, The HTML APPLET tag, Passing parameters to Applets, getDocumentbase() and getCodebase().

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Text Books:

1. Programming Languages: Design and Implementaion, Terrance W.Pratt, M.V.Zelkowitz, T.V.Gopal. Prentice Hall

2. Java - The Complete Reference, Herbert Schildt, 7th Edition, Tata McGraw Hill, 2007.

3. HTML Complete Reference, Powell, TMH

Reference Books:

1. Introduction to JAVA Programming, Y. Daniel Liang, 6th Edition, Pearson Education, 2007.

2. Principles Of Programming Language, Harwitz & Sahani, Galgotia Publication

IT 501/601 Software Engineering CR-4 Introduction: Software and its characteristics, application. Software engineering: a layered technology. The software process, software process Models: Classical waterfall model, iterative waterfall model, prototyping mode, evolutionary model, spiral model, RAD model.

Software Project Management: Responsibilities of a Software project manager, project planning, Metrics for project size estimation, Project estimation techniques, Empirical estimation techniques, COCOMO models, Scheduling, Organization & team structure, Staffing, Risk management, Software configuration management.

Structural Analysis & Design: Requirements Analysis, Requirements elicitation for software analysis, Analysis principles, Specifications (SRS document), Software Design: cohesion & coupling, neat arrangement, Function–Oriented software design: Structural Analysis, Structural Design (DFD and Structured Chart), Object Oriented Analysis & Design.

Testing Strategies: Coding, Code Review, Testing: - Unit testing, Black-box Testing, White-box testing, Debugging, Integration testing, System testing

Software Reliability and Software Maintenance: Software reliability, SEI CMM, Characteristics of software maintenance, software reverse engineering, software reengineering.

Text Books:

1. Fundamentals of Software Engineering, Rajib Mall , PHI 2. Software Engineering, A Practitioner’s Approach, Roger S. Pressman ,TMG Hill.

Reference Book :

1. Software Engineering, I.Sommerville, Pearson Education, Asia.

IT-502/602 Computer Graphics and Multimedia CR-4 Introduction to Computer Graphics, Use of computer graphics, Elements of picture creation, Display technologies, Graphics display devices, Graphics input primitives and devices;

Two dimensional output primitives, Different forms of line drawing algorithms, Circle generating algorithms, Ellipse generating algorithm, Filled area primitives;

The geometries of transformations, Translation, Rotation in plane, Rotation in space, Reflection, Homogeneous coordinates, Composite transformations, Polygons, Two dimensional viewing, Window to view port transformations, Line clipping, Polygon clipping, projection;

Three dimensional shapes representations: Spline, Bezier curves and surfaces, Octrees, BSP trees, Fractal geometry; Visible surface detection; Solid modeling; Shading; Advanced modeling techniques; Animation;

Introduction to Multimedia; Multimedia authoring tools; Graphics and image data representation; Color in Image & Video; Basics of Video and Audio; Compression; Content based retrieval.

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Text Books: 1. Computer Graphics, C Version, D. Hearn and M. P. Baker, Pearson, 2nd Ed, 2003. 2. Fundamentals of Multimedia, Ze-Nian Li, M. S. Drew, Prentice Hall, 1st Ed, 2004.

Reference Books: 1. Computer Graphics - Principles and Practice, J. D. Foley, A. Van Dam, S. K. Feiner and J. F. Hughes, Second

Edition in C, Addison Wesley, 2nd Ed, 2003. 2. Mathematical Elements for Computer Graphics, D. F. Rogers, J. A. Adams, McGraw Hill, 2nd Ed, 2001 3. Principles of Multimedia, Ranjan Parekh, McGraw Hill, 1st Ed, 2006. 4. Introduction to Computer Graphics and Multimedia, A. Mukhopadhyay, A. Chattopadhyay, Vikas, 2nd Ed, 2007.

IT-603 Computer Networks CR-4 Introduction: Overview: Definitions of Data Communications and Networking, OSI reference Model, Topologies, LAN, MAN, WAN.

Physical Layer: Digital Signals, Nyquist Theorem, Line coding, Block coding, Sampling, Transmission mode. Transmission Media: Guided Media, Unguided media. Switching: Circuit switching, Packet switching.

Data Link Layer: Error Detection and correction: Type of Errors, Detection, Error Correction. Data Link Control and Protocols: Flow and error Control, Stop-and-wait ARQ. Go-Back-N ARQ, Selective Repeat ARQ, HDLC. Point-to –Point Access: Point –to- Point Protocol, Channelization, Multiple Access, Random Access, Controlled Access,. Local area Network: Ethernet. Wireless LANs: IEEE 802.11, Token Ring, FDDI.

Network Layer: Host to Host Delivery: Internetworking, Addressing and Routing. Network Layer Protocols: ARP, IPV4, ICMP, Intro to IPV6.

Transport Layer: Process to Process Delivery: UDP; TCP congestion control and Quality of service.

Application Layer: Client Server Model, Domain Name System (DNS): Electronic Mail (SMTP) and file transfer (FTP) HTTP and WWW.

Text Books:

6. Data Communications and Networking: Third Edition. Behrouz A. Forouzan, Tata McGraw-Hill Publishing Company Limited.

7. Computer Networks, A.S.Tanenbaum, Pearson Education, IV Edition, 2003

Reference Book:

1. Computer Networks - A system Approach, Larry L Peterson and Bruce S. Davie, Elsevier, Third Edition,

IT-702 Computer Security CR-4 The Security Problem in Computing: The meaning of computer Security, Computer Criminals, Methods of Defense, Elementary Cryptography: Substitution Ciphers, Transpositions, Making “Good” Encryption Algorithms, The Data Encryption Standard, The DES, Blowfish, AES Encryption Algorithm

Asymmetric Key cryptography: Overview, RSA, Cryptographic Hash function: MD5, SHA, MAC, HMAC. PKI.

Program Security: Secure Programs, Non-malicious Program Errors, viruses and other malicious code, Targeted Malicious code, controls Against Program Threats, Protection in General-Purpose operating system protected objects and methods of protection memory and addmens protection, File protection Mechanisms, User Authentication Designing Trusted Operating System Security polices, models of security, trusted Operating System design, Assurance in trusted Operating Syste,. Implementation Examples.

Data Base Security : Security requirements, Reliability and integrity, Sensitime data, Inference, multilevel database, proposals for multilevel security.

Security in Network.

Threats in Network, Network Security Controls, Firewalls, Intrusion Detection Systems, Secure E-mail.

Advanced Topics: Legal Privacy and Ethical Issues in Computer Security: Software failures, Computer Crime, Ethical issues in Computer Security.

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Text Book:

1. Security in Computing Third Edition Charles, P. Pfleeger, shari Lawrence Pfleeger., PHI.

Reference Books:

1. Cryptography and networks security: Principles and Practice, William Stalling, Prentice Hall, New jersey. 2. Introduction to cryptography, Johannes A Buchmann, Spiringer–verlag

IT-703 Object-Oriented System Design CR-4 Introduction: An Overview of Object Oriented Systems Development, Object Basics, Object-Oriented Systems Development Life Cycle.

Object Oriented Methodologies: Rumbaugh Methodology, Booch Methodology, Jacobson Methodology, Object Oriented Programming, Object Oriented Design, Object Oriented Analysis. Elements of Object Model.

UML : Unified Modeling Language, Conceptual Model of the UML, Iterative development, Unified approach.

Object Oriented Analysis: Understanding requirements, Identifying use cases; Object Analysis: Classification; Identifying Object relationships, Attributes and Methods. Object Oriented Design: Object-Oriented Design, Design Models: GRASP, Design Patterns, Framework, object-oriented testing, Process and Design Axioms; Designing Classes; Access Layer: Object Storage, Object Interoperability; Designing Interface Objects.

Object Oriented Data Model: Quarry Languages, OODBMS, Object Relational Database. Text Books:

1. Object Oriented Systems Development, Ali Bahrami, Tata McGraw-Hill. 2. Applying UML and Patterns, Criag Larman, Pearson Education. Reference Books:

1. Introduction to Object Oriented Analysis and Design, Stephen R. Schach, Tata McGraw-Hill, 2003. 2. The Unified Modeling Language Reference Manual, James Rumbaugh, Ivar Jacobson, Grady Booch, Addison

Wesley, 1999. 3. Practical Object-Oriented Design with UML, Mark Priestley, 2nd Edition, Tata McGraw-Hill, 2003. 4. Object-Oriented Design with UML and JAVA, K. Barclay, J. Savage, Elsevier, 2008.

IT-710 Mobile Computing CR-4 Wireless Communication Fundamentals: Introduction, Wireless transmission, Frequencies for radio transmission, Signals, Antennas, Signal Propagation, Multiplexing, Modulations, Spread spectrum, MAC, SDMA, FDMA, TDMA, CDMA, Cellular Wireless Networks.

Telecommunication Networks: Telecommunication systems, GSM, GPRS, DECT, UMTS, IMT-2000, Satellite Networks, Basics, Parameters and Configurations, Capacity Allocation, FAMA and DAMA, Broadcast Systems, DAB, DVB. Wireless LAN: Wireless LAN, IEEE 802.11, Architecture, services, MAC, Physical layer, IEEE 802.11a, 802.11b standards, HIPERLAN, Blue Tooth.

Mobile Network Layer 9: Mobile IP, Dynamic Host Configuration Protocol, Routing, DSDV, DSR, Alternative Metrics. Transport and Application Layers 7: Traditional TCP, Classical TCP improvements, WAP, WAP 2.0. Text Books:

1. Mobile Communications, Jochen Schiller, PHI/Pearson Education, Second Edition, 2003. 2. Wireless Communications and Networks, William Stallings, PHI/Pearson Education, 2002. (Chap 7, 10, 9)

References Books: 1. Principles of Wireless Networks, Kaveh Pahlavan, Prasanth Krishnamoorthy, PHI/Pearson Education, 2003. 2. Principles of Mobile Computing, Uwe Hansmann, Lothar Merk, Martin S. Nicklons and Thomas Stober, Springer,

New York, 2003. 3. Mobile Communication Systems, Hazysztof Wesolowshi, John Wiley and Sons Ltd, 2002

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IT-712 Image Processing CR-4 Introduction to Digital Image Processing: Applications of Image Processing, Sampling, Quantization, Basic Relationship between Pixels, Imaging Geometry.

Image Enhancement: Image Enhancement in Spatial Domain, Gray Level Transformation, Histogram Processing, Enhancement Using Arithmetic and Logic Operation, Smoothing Spatial Filter, Sharpening Spatial Filter, Image Enhancement in Frequency Domain, Fourier Transform, Smoothing Frequency Domain Filter, Sharpening Frequency Domain Filter

Image Restoration: Image Degradation and Restoration Process, Noise Models, Noise Reduction by Spatial Filtering, Noise Reduction by Frequency Domain Filtering, Inverse Filtering, Least Square Filtering, Geometric Mean Filter

Image Data Compression: Image Compression Model, Elements of Information Theory, Error Free Compression, Lossy Compression, Image Compression Standards

Image Segmentation and Object Reorganization: Edge Linking and Boundary Detection, Thresholding, Region Based Segmentation, Watershed Segmentation Algorithm, Shape Representation and Description, Boundary Descriptors, Regional Descriptors, Patterns, Object Reorganization Based on Decision-Theoretic Methods and Structural Methods.

Color Image Processing: Color Fundamentals, Color Models, Pseudocolor Image Processing, Color Transformation, Smoothing and Sharpening, Color Segmentation, Noise in Color Image, Color Image Compression

Morphological Image Processing: Introduction, Dilation, Erosion, Hit-or-Miss Transformation, Morphological Algorithms; Boundary Extraction, Region Filling, Convex Hull, Thinning, Thickening, Skeletons, Pruning

Motion Picture Analysis: Introduction to Motion Picture Analysis

Text Book:

1. Digital Image Processing, Rafael C. Gonzalez, Richard E. Woods, Low Price Edition

Reference Books:

1. Digital Image Processing Using MATLAB, Rafael C. Gonzalez, Richard E. Woods, Steven L. Eddins, MGH.

2. Digital Image Processing and Analysis, B. Chanda, D. Dutta Majumder, PHI.

3. Fundamentals of Digital Image Processing, Anil K. Jain, PHI.

IT-714 Enterprise Computing using Java CR-4 Internet Fundamentals of Web, Internet, WWW, Web Browsers and Web Servers, URLs, MIME, HTTP

Javascript: Overview of Javascript, Object orientation and Javascript, Syntactic characteristics, Primitives, operations, and expressions, Screen output and keyboard input, Control statements, Object creation and modification, Arrays, Functions, Constructors, Pattern matching using regular expressions, Errors in scripts, Examples.

Javascript and HTML Documents, Dynamic Documents with Javascript: The Javascript execution environment, The Document Object Model, Element access in Javascript, Events and event handling, Handling events from the Body elements, Button elements, Text box and Password elements, The DOM 2 event model

Multi Threaded Programming: Thread concepts, Thread class and Runnable interface, Use of join() and isAlive() methods, Synchronization; Inter thread communication, producer-consumer problems.

AWT: Active and passive components, Label, Button, Choice etc, layout managers

Applet Event Handling: The delegation event model, Event classes, Sources of events, Event listener interfaces, Adapter classes, Inner classes.

Swings: The origins of Swing, Swing features: Components and Containers, Swing Application, Jlabel and ImageIcon; JTextField, The Swing Buttons, JTabbedpane, JScrollPan, JList, JComboBox, JTable.

JDBC: JDBC Driver Types; JDBC Packages; A Brief Overview of the JDBC process; Database Connection; Associating the JDBC/ODBC Bridge with the Database; Statement Objects, ResultSet, Transaction Processing.

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Servlets: Background, The Life Cycle of a Servlet, Using Tomcat for Servlet Development, A simple Servlet, The Servlet API, The Javax.servlet Package, The Javax.servlet.http package; Handling HTTP Requests and Responses; Using Cookies; Session Tracking.

JSP, RMI, Java Beans: JSP Elements, JSP Tags, Using Tomcat for JSP. Remote Method Invocation concept; Server side, Client sideapplication using RMI.Java Bean Architecture, Introspection

Enterprise Java Beans: Enterprise java Beans, Deployment Descriptors, Session Java Bean, Entity Java Bean; Message-Driven Bean; The JAR File.

Text Books:

1. J2EE - The Complete Reference, Jim Keogh, Tata McGraw Hill, 2007. 2. Java Script Bible, Danni Goodman, 2nd Ed. Comdex Computer Pub.1997

Reference Books:

1. Internet & World Wide Web How to Program, M. Deitel, P.J. Deitel, A. B. Goldberg, 3rd Edition, Pearson education, 2004.

2. The J2EE Tutorial, Stephanie Bodoff et al, 2nd Edition, Pearson Education, 2004

IT-715 Information Retrieval CR-4 Introduction: Definition, Objectives, Functional Overview, Relationship to DBMS, Digital libraries and Data Warehouses. Information Retrieval System Capabilities: Search, Browse, Miscellaneous. Cataloging and Indexing: Objectives, Indexing Process, Automatic Indexing, Information Extraction.

Data Structures: Introduction, Stemming Algorithms, Inverted file structures, N-gram data structure, PAT data structure, Signature file structure, Hypertext data structure.

Automatic Indexing: Classes of automatic indexing, Statistical indexing, Natural language, Concept indexing, Hypertext linkages, Document and Term Clustering: Introduction, Thesaurus generation, Item clustering, Hierarchy of clusters.

User Search Techniques: Search statements and binding, Similarity measures and ranking, Relevance feedback, Selective dissemination of information search, Weighted searches of Boolean systems, Searching the internet and hypertext, Information Visualization: Introduction, Cognition and perception, Information visualization technologies.

Text Search Algorithms: Introduction, Software text search algorithms, Hardware text Search Systems. Information System Evaluation: Introduction, Measures used in system evaluation, Measurement example – TREC results.

Text Books:

1. Information Retrieval Data Structures and Algorithms, Frakes, W.B., Ricardo Baeza-Yates, Prentice Hall, 1992.

2. Information Retrieval Systems: Theory and Implementation, Kowalski, Gerald, Mark T Maybury, Kluwer Academic Press, 1997.

Reference Books:

1. Modern Information Retrieval, Yates, Pearson Education.

2. Information Storage & Retieval, Robert Korfhage John Wiley & Sons.

IT-811 Data Mining & Data Warehousing CR-4 Introduction:

Basic Data Mining Tasks, Data Mining Issues, Data Mining Metrics, Data Mining from a Database Perspective.

Data Mining Techniques:

A Statistical Perspective on Data Mining, Similarity Measures, Decision Trees, Neural Networks, Genetic Algorithms.

Classification:

Statistical-Based Algorithms, Distance-Based Algorithms, Decision Tree-Based Algorithms, Neural Network-Based Algorithms, Rule-Based Algorithms, Combining Techniques.

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Clustering:

Similarity and Distance Measures, Hierarchical Algorithms, Partition Algorithms, Clustering Large Databases, Clustering with Categorical Attributes.

Association Rules:

Basic Algorithms, Parallel and Distributed Algorithms, Incremental Rules, Advanced Association Rule Techniques, Measuring the Quality of Rules.

Advanced Techniques:

Web Mining, Spatial Mining, Temporal Mining.

Text Book:

1. Data Mining: Concepts and Techniques, J. Han and M. Kamber, 2nd Ed. Morgan Kaufman. 2006. Reference Books:

1. Data Mining: Introductory and Advanced Topics, M. H. Dunham, Pearson Education. 2001. 2. Data Mining: Practical Machine Learning Tools and Techniques, I. H. Witten and E. Frank Morgan Kaufmann.

2000. 3. Principles of Data Mining, D. Hand, H. Mannila and P. Smyth, Prentice-Hall. 2001.

IT-812 Management Information System CR-4 Foundation concepts:

Information Systems in Business: Introduction, The real world of Information Systems, Networks, The fundamental role of IS in business, Trends in IS, Managerial challenges of IT. System Concepts: Foundation, Components of an Information System, Information System Resources, Information System activities, Recognizing Information Systems.

Fundamentals of strategic advantages: Strategic IT, Competitive strategy concepts, The competitive advantage of IT, Strategic uses of IT, Building a customer-focused business, The value chain and strategic IS, Reengineering business processes, Becoming an agile company, Creating a virtual company, Building a knowledge-creating company.

Electronic Business Systems:

Enterprise Business Systems: Introduction, Cross-functional enterprise applications, Enterprise application integration, Transaction processing systems, Enterprise collaboration systems. Functional Business Systems: Introduction, Marketing systems, Manufacturing systems, Human resource systems, Accounting systems, Financial Management Systems, overview of ERP and E-Commerce.

Decision Support Systems:

Decision support in business: Introduction, Decision support trends, Decision support systems (DSS),Management Information Systems, On-line analytical processing, Using DSS, Executive information systems, Enterprise portals and decision support, Knowledge management systems, Business and Artificial Intelligence (AI), An overview of AI, Expert systems.

Security and Ethical Challenges:

Security, Ethical and societal challenges of IT: Introduction, Ethical responsibility of business professionals, Computer crime, Privacy issues, other challenges, Health issues, Societal solutions.

Security management of IT: Overview, Tools of security management, Internetworked security defenses, other security measures, System Controls and audits.

Enterprise and Global Management of IT:

Managing IT: Business and IT, Managing IT, Business / IT planning, Managing the IS function, Failures of IT management.

Managing global IT: The International Dimension, Global IT Management, Cultural, Political and Geo - Economic challenges, Global Business/ IT strategies, Global Business / IT applications, Global IT Platforms, Global data access issues, Global Systems development.

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Text Book: 1. Management Information Systems, James A. O’ Brien, George M. Marakas, Tata McGraw Hill.

Reference Books: 1. Management Information System, Managing the Digital Firm, Kenneth C. Laudon and Jane P. Laudon, Pearson

Education. 2. Information Systems -The Foundation of E-Business, Steven Alter, Pearson Education. 3. Management Information Systems, W.S. Jawadekar, Tata McGraw Hill.

IT – 813 Software Project Management CR-4 Introduction to Software Project Management: Software Project Management, Software Project vs other types of Projects, Activities, Plan methods, Methodologies, Categorization, Management control.

Project evaluation and Programme Management: Project Portfolio Management, Evaluation, Cost-benefit Evaluation, Risk Evaluation, Managing Allocation of Resources, Benefits Management.

An Overview of Project Planning: Stepwise Project Planning

Selection of Project Approach: Choosing Methodologies and Technologies, Agile Methods, Dynamic System Development Method, Managing Iterative Process, Selecting Process Model.

Software Effort Estimation: Estimates, Effort Estimation, top-down, Bottom up, Function Points, COCOMO.

Activity Planning and Resource Allocation: Project Schedules, Network Planning Models, Sequencing and Scheduling. Resource Allocation, Scheduling Resources, Cost Schedules.

Risk Management, Monitoring and Control: Risk, Categories of Risk, Identification, Assessment, Planning, Management and Control, Creating Framework, Cost Monitoring, Prioritizing Monitoring, Change Control.

Managing Contracts & People and Team Working: Types of Contract, Contract Management, Understanding Behaviour, Organization Behaviour, Motivation, Oldham-Hackman Job Characteristics Model, Some Ethical and Professional Concerns, Decision Making, Organization Structure, Dispersed and Virtual Teams, Leadership.

Software Quality: Defining Software Quality, ISO 9126, Product vs Process Quality Management, Quality Management System, Process Capability Models, Testing, Quality Plans.

Text Book:

1. Software Project Management, Bob Hughes and Mike Cotterell, TMH. Reference Books:

1. Software Project Management – A Real-World Guide to Success, Henry. J ,Addison-Wesley. 2. Software Project Management in Practice, Pankaj Jalote, Pearson Education. 3. Software Project Management, A Concise Study, S.A. Kelkar, Prentice-Hall India. 4. Introduction to Software Project Management and Quality Assurance, Ince D., Sharp H. and Woodman M.,

McGraw-Hill.

IT-814 Software Testing CR-4 Basics of Software Testing: Human Errors and Testing; Software Quality; Requirements, Behavior and Correctness; Correctness versus Reliability; Testing and Debugging; Test Metrics, Software and Hardware Testing: Testing and Verification; Defect Management; Execution History; Test Generation Strategies, Static Testing, Model-Based Testing and Model Checking; Control-Flow Graph; Types of Testing; The Saturation Effect.

Test Generation From Requirements: Introduction; The Test-Selection Problem; Equivalence Partitioning; Boundary Value Analysis; Category-Partition Method; Cause-Effect Graphing, Test Generation from Predicates.

Structural Testing: Overview of Statement testing; Branch testing; Condition testing; Path testing. Procedure call testing; Comparing structural testing criteria; The infeasibility problem.

Dependence, Data Flow Models, Data Flow Testing: Definition-Use pairs; Data flow analysis; Classic analyses; From execution to conservative flow analysis; Data flow analysis with arrays and pointers; Inter-procedural analysis; Overview of data flow testing; Definition-Use associations; Data flow testing criteria; Data flow coverage with complex structures; The infeasibility problem.

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Test Case Selection and Adequacy, Test Execution: Overview; Test specification and cases; Adequacy criteria; Comparing criteria; Overview of test execution; From test case specification to test cases; Scaffolding; Generic versus specific scaffolding; Test oracles; Self-checks as oracles; Capture and replay.

Process: Test and analysis activities within a software process: The quality process; Planning and monitoring; Quality goals; Dependability properties; Analysis; Testing; Improving the process; Organizational factors. Integration and component-based software testing: Overview; Integration

Testing Strategies; Testing components and assemblies. System, Acceptance and Regression Testing: Overview; System testing; Acceptance testing; Usability; Regression testing; Regression test selection techniques; Test case prioritization and selective execution, Mutation testing.

Object-Oriented Testing: Testing Object Oriented Software: Unit Testing in OO Context, Integration Testing in OO Context, OO testing methods, Class level testing, Interclass test case design, testing for real time system

Text Books:

1. Foundations of Software Testing, Aditya P Mathur, Pearson Education. 2. Software Testing and Analysis Process Principles and Techniques, Mauro Pezze, Michal Young, Wiley India.

Reference Books:

1. Software Testing Principles and Practices, Srinivasan Desikan,Gopalaswamy Ramesh, 2nd Edition, Pearson. 2. Software Testing, Ron Patton, 2nd edition, Pearson, 2004. 3. The Craft of Software Testing, Brian Marrick, Pearson, 1995. 4. Practical Software Testing, Ilene Burnstein, Springer-Verlag First Indian Reprint 2004.

IT-815 Soft Computing CR-4 Introduction to Neura Fuzzy And Soft Computing: Introduction, Soft Computing Constituents and Conventional AI, Neuro-Fuzzy and Soft Computing Characteristics

Fuzzy Set Theory: Fuzzy Sets, Basic Definition and Terminology, Set-theoretic Operations, Member Function Formulation and Parameterization, Fuzzy Rules and Fuzzy Reasoning, Extension Principle and Fuzzy Relations, Fuzzy If-Then Rules, Fuzzy Reasoning, Fuzzy Inference Systems, Mamdani Fuzzy Models, Sugeno Fuzzy Models, Tsukamoto Fuzzy Models, Input Space Partitioning and Fuzzy Modelling.

Optimization: Derivative-based Optimization, Descent Methods, The Method of Steepest Descent, Classical Newton’s Method, Step Size Determination, Derivative-free Optimization, Genetic Algorithms, Simulated Annealing, Random Search, Downhill Simplex Search.

Neural Networks: Supervised Learning Neural Networks, Perceptrons, Adaline, Backpropagation Mutilayer Perceptrons, Radial Basis Function Networks, Unsupervised Learning Neural Networks, Competitive Learning Networks, Kohonen Self-Organizing Networks, Learning Vector Quantization, Hebbian Learning, Hop-field networks.

Neuro Fuzzy Modelling: Adaptive Neuro-Fuzzy Inference Systems, Architecture, Hybrid Learning Algorithm, Learning Methods that Cross-fertilize ANFIS and RBFN, Coactive Neuro Fuzzy Modeling, Framework Neuron Functions for Adaptive Networks, Neuro Fuzzy Spectrum. Introduction to Neuro Fuzzy Control.

Text Book: 1. Neuro-Fuzzy and Soft Computing, J.S.R.Jang, C.T.Sun and E.Mizutani, PHI/Pearson Education.

References Books: 1. Fuzzy Logic with Engineering Applications, Timothy J.Ross, McGraw-Hill, 1997. 2. Genetic Algorithms: Search, Optimization and Machine Learning, Davis E.Goldberg, Addison Wesley, N.Y.,

1989. 3. Neural Networks: A Comprehensive Foundation, Simon Haykin. Prentice Hall 4. Neural Network Design, M. T. Hagan, H. B. Demuth, Mark Beale, Thomson Learning, Vikash Publishing

House. 5. Neural Networks, Fuzzy Logic and Genetic Algorithms, S. Rajasekaran and G.A.V.Pai, PHI, 2003

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IT-816 E-Commerce & ERP CR-4 Electronic Commerce: Overview, Definitions, Advantages & Disadvantages of E-Commerce, Threats of E-Commerce, Managerial Prospective, Rules & Regulations for Controlling Commerce, Relationship Between E-Commerce & Networking, Different Types of Networking for E-Commerce, internet, Intranet, EDI Systems Wireless Application Protocol : Definition, Hand Held Devices, Mobility & Commerce, Mobile Computing, Wireless Web, Web Security, Infrastructure Requirement for E-Commerce. Business Models of E-commerce; Model Based on Transaction Type, Model Based on Transaction Party - B2B, B2C, C2B, C2C, E-Governance.

E-Strategy: Overview, Strategic Methods for developing E-Commerce. Four C’s (Convergence, Collaborative Computing, Content Management & Call Centre).

Convergence: Technological Advances in Convergence - Types, Convergence and its implications, Convergence & Electronic Commerce.

Collaborative Computing: Collaborative product development, contract as per CAD, Simultaneous Collaboration, Security.

Content Management: Definition of content, Authoring Tools and Content Management, Content - partnership, repositories, convergence, providers, Web Traffic&

Traffic Management: Content Marketing.

Call Centre: Definition, Need, Tasks Handled, Mode of Operation, Equipment, Strength & Weaknesses of Call Centre, Customer Premises Equipment (CPE). [6L]

Supply Chain Management: E-logistics, Supply Chain Portal, Supply Chain planning Tools (SCP Tools), Supply Chain Execution (SCE), SCE - Framework, Internet’s effect on Supply Chain Power.

E-Payment Mechanism: Payment through card system, E-Cheque, E-Cash, E-Payment Threats & Protections.

E-Marketing: Home - shopping, E-Marketing, Tele-marketing.

Electronic Data Interchange (EDI): Meaning, Benefits, Concepts, Application, EDI Model, protocols (UN EDI, FACT / GTDI, ANSIX - 12, Data Encryption (DES / RSA)

Risk of E-Commerce:

Overview, Security for E-Commerce, Security Standards, Firewall, Cryptography, Key Management, Password Systems, Digital Certificates, Digital Signatures.

Text Books:

1. Electronic Commerce - Technologies & Applications, Bhaskar Bharat, TMH.

Reference Books:

1. E-commerce, MM Oka, EPH

2. Frontiers of Electronic Commerce, Kalakotia, Whinston, Pearson Education.

3. Electronic Commerce, Loshin pete, Murphy P.A., Jaico Publishing Housing

4. E-Commerce, Murthy, Himalaya publishing.

5. Global E-Commerce, J. Christopher & T.H.K. Clerk, University Press

6. Beginning E-Commerce, Reynolds, SPD

7. E-Commerce Mgmt. Krishnamurthy, Vikas Publishing.

IT-817 Service Oriented Architecture CR-4 Introduction to SOA, Evolution of SOA: Fundamental of SOA; Common Characteristics of contemporary SOA; Common tangible benefits of SOA; An SOA timeline (from XML to Web services to SOA); The continuing evolution of SOA (Standards organizations and Contributing vendors); The roots of SOA (comparing SOA to Past architectures).

Web Services and Primitive SOA: The Web services framework; Services (as Web services); Service descriptions with WSDL; Messaging with SOAP.

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Web Services and Contemporary SOA: Message exchange patterns; Service activity; Coordination; Atomic Transactions; Business activities; Orchestration; Choreography,

Addressing; Reliable messaging; Correlation; Polices; Metadata exchange; Security; Notification and eventing.

Principles of Service – Orientation: Services-orientation and the enterprise; Anatomy of a service-oriented architecture; Common Principles of Service-orientation; Service orientation principles interrelate; Service-orientation and object-orientation; Native Web service support for service-orientation principles.

Service Layers: Service-orientation and contemporary SOA; Service layer abstraction; Application service layer, Business service layer, Orchestration service layer; Agnostic services; Service layer configuration scenarios.

Business Process Design: WS-BPEL language basics; WSCoordination overview; Service-oriented business process design; WSaddresing language basics; WS-ReliableMessaging language basics.

SOA Platforms: SOA platform basics; SOA support in J2EE; SOA support in .NET; Integration considerations.

Text Book:

1. Service-Oriented Architecture Concepts Technology, and Design, Thomas Erl, Pearson Education.

Reference Book:

1. Understanding SOA with Web Services, Eric Newcomer, Greg Lomow, Pearson Education.

IT–750 Problem Solving Techniques and Testing CR-4 Software Engineer’s Skills: Skills required for a software engineer

Introduction to Logic: Definition, Types of logic, Truth tables

Introduction to Problem Solving: Definition of a Problem, a Framework for Problem Solving, Classification of Problems

Introduction to Algorithms: Definition of an Algorithm, Properties of an Algorithm, Categories of Algorithms

Implementation of algorithms using Flowchart: Introduction to flowchart, Introduction to RAPTOR tool, Flowchart examples for simple computational problems

Introduction to Data Structures: Definition of Data Structures, Need of Data Structures, Types of Data Structures

Basic Data Structures: List, Record, Stack, Queue

Introduction to Programming & Paradigms: Introduction to Programming, Program Life Cycle, Industry Coding Standards and Best Practices, Importance of Coding Standards, Introduction to Code Optimization techniques

Testing and Debugging: File handling

Project Specification and Briefing: High Level Design, Detailed Design, Coding, Integration Testing.

Test Books:

1. How To Solve IT By Computers, Dromey, R.G., Prentice Hall

2. Data Structures and Algorithms, Alfred V.Aho, Ullman, Hopcroft, Addison-Wesely.

Reference Books:

1. Software Testing: Principles and Practices, Naresh Chouhan, OXFORD

2. Data Structures, Lipschutz, Seymour & G A V Pai, Tata McGraw – Hill

3. Software Engineering: A Practitioner's Approach, Roger S. Pressman, TATA McGraw-Hill

IT-851 Computer Graphics CR-4 Introduction to Computer Graphics, Use of computer graphics, Elements of picture creation, Display technologies, Graphics display devices, Graphics input primitives and devices;

Two dimensional output primitives, Different forms of line drawing algorithms, Circle generating algorithms, Ellipse generating algorithm, Filled area primitives;

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The geometries of transformations, Translation, Rotation in plane, Rotation in space, Reflection, Homogeneous coordinates, Composite transformations, Polygons, Two dimensional viewing, Window to view port transformations, Line clipping, Polygon clipping, projection;

Three dimensional shapes representations: Spline, Bezier curves and surfaces, Octrees, BSP trees, Fractal geometry; Visible surface detection; Solid modeling; Shading; Advanced modeling techniques; Animation;

Text Books:

1. Computer Graphics, C Version, D. Hearn and M. P. Baker, Pearson, 2nd Ed, 2003.

Reference Books:

1. Computer Graphics - Principles and Practice, J. D. Foley, A. Van Dam, S. K. Feiner and J. F. Hughes, Second Edition in C, Addison Wesley, 2nd Ed, 2003.

2. Mathematical Elements for Computer Graphics, D. F. Rogers, J. A. Adams, McGraw Hill, 2nd Ed, 2001

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ELECTRICAL ENGINEERING COURSES

EE-101/201 Electrical Science CR-3 Review Of Electrostatics Electric field intensity, potential, flux density, flux, potential gradient, dielectric strength, Capacitance of capacitor, energy stored, charging and discharging of capacitors. DC Circuits Ohm’s law, Kirchoff’s law, mesh current and node voltage methods, Superposition theorem, Thevenin’s theorem, Norton’s theorem. Review Of AC Fundamentals Solution of series and parallel circuits, power & power factor, resonance in series and parallel circuits. Three Phase AC circuits Three phase voltage and current, star & delta connections, measurement of power & power factor by two-wattmeter. Magnetic Circuits MMF, magnetizing force, magnetic flux, flux density, permeability, reluctance, permeance, B-H curve, simple magnetic circuits, leakage flux, hysteresis and eddy current loss. Single-Phase Transformer Construction, principle of operation, emf equation, losses and efficiency. Three-Phase Transformer Construction & connections. DC Generator Construction, emf equation, various types and their characteristic. DC Motor Principle, torque and speed formula, types and their characteristic, speed control and applications. Three-Phase Induction Motor Construction, principle of operation, torque-slip characteristic, speed control and applications. Three-Phase Alternator Construction, principle and emf equation. Measurement of Electrical Quantity PMMC instruments, voltmeter, ammeter, dynamometer type wattmeter, induction type energy-meter. Text Book

1. Basic Electrical Engineering- Abhijit Chakrabarti, Sudipta Nath, Chandan Kumar Chanda. Tata McGraw-Hill Publishing Company Limited, New Delhi.

Reference Books 1. Basic Electrical Engineering- D.P. Kothari, I. J. Nagrath. Tata McGraw-Hill Publishing

Company Limited, New Delhi. 2. Principles of Electrical engineering and Electronics- V.K. Mehta, Rohit Mehta. S.

Chand and company, New Delhi

EE-303 Electrical Circuit Analysis CR-4 Network Theorems

Star delta transformation, superposition theorem, Thevenin’s Theorem, Norton’s Theorem, Reciprocity Theorem, Maximum Power transfer theorem, Millman’s Theorem.

Resonance in AC Circuits

Series & parallel resonance, properties of resonant circuits, selectivity and bandwidth, Q factor.

Coupled Circuits

Dot conventions for coupled circuits, coefficient of coupling, loop analysis of coupled circuits, tuned coupled circuits.

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Polyphase Systems

Importance of phase sequence, solution of three phases balanced and unbalanced loads.

Transients in AC and DC circuits

Transient response of RL, RC and RLC circuits with a constant and sinusoidal excitation in time domain by Laplace transformation method, response to step, impulse and ramp inputs, S - domain circuits.

Two Port Networks

Short circuit, open circuit and transmission parameters, hybrid parameters, T and PI representation, interconnection of two ports (cascade and parallel).

Network Function and Responses Concept of complex frequency, driving point and transfer functions of one port and two-port network, Calculation of the network functions, Restrictions on poles and zero location of network function, impulse response, time domain behaviour from pole zero plot using Laplace transform.

Filter Design

Design of low pass, high pass, band pass and band elimination filters.

AC circuits with non- sinusoidal waveforms

Fourier series representation of complex waves, RMS value of complex wave, power.

Network Synthesis

Driving point function, properties of positive real function, synthesis of LC, RC and RL driving point function by Cauer – I & Cauer – II, Foster I & II forms.

Text Books:

1. Circuits and Networks Analysis and Synthesis (Second Edition) A Sudhakar Shyammohan S Palli, Tata McGraw-Hill.

2. Circuit Theory, Analysis and Synthesis A. Chakrabarti , Dhanpatrai & Co.

Reference:

Basic Circuit Analysis (Second Edition) John O’Malley , Schaum’s Outlines, Tata McGraw-Hill.

EE-302 Electrical Measurements CR-4

Measuring Instruments

Classification, Absolute & secondary instruments, indicating instruments, control, balancing & damping, constructional details, characteristics, Errors in measurements.

Wattmeter

Electrodynamometer type, induction type, single phase and three phase wattmeter, calibration devices, error’s in watt meters, compensation, Measurement of 3-phase power.

Energy Meter

AC induction type single phase and three phase energy meter, compensation, creep, errors, testing.

Galvanometer

General principles and performance equation of D’Arsonval Galvanometer, vibration galvanometer and ballistic galvanometer, Underdamped, Undamped, critically damped motion of a galvanometer. Measurement of charge and flux by ballistic galvanometer.

Frequency Meter

Vibration reed type and Electrical resonance type.

Power Factor meter

Single phase and three phase electrodynamometer power factor meter. Advantages and disadvantages.

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Instruments Transformer

Potential and current transformers, construction, ratio and phase angle errors, phasor diagram, uses, testing.

Potentiometer

DC Potentiometer- Crompton potentiometer, Standardization. Application.

AC Potentiometer, Drysdale Polar potentiometer, Gall Tinsley coordinate type potentiometer, Standardization, Measurement.

DC/AC Bridge

General equation of Bridge balance. Measurement of self inductance by Maxwell’s inductance capacitance bridges, Heys bridge, Anderson Bridge, Owens bridges, Schring bridge, Errors, Wagners earthing device, Wheatstone bridge, Kelvin’s double bridge.

Transducers

Strain Gauge, Thermistors, Thermocouples, RTD, LVDT, Capacitance transducers, Torque meter, Inductive torque transducers, Tachometers.

Electronic Instruments

Electronic voltmeter, Block diagram, principles of operation, accuracy of measurements. Digital Multimeter, Digital frequency meter, block diagram, principle of operation, accuracy of measurement.

CRO

Block Diagram, Sweep Generator, Vertical amplifiers, Use of CRO for measurement of frequency, phase, amplitude, rise time.

Text Books

1. Electrical and Electronics Measurements and Instrumentation – A.K.Sawhney- Dhanpat Rai 2. Electronics Measurements and Instrumentation – H. Cooper – PHI

Reference Books

1. Electronics Instruments and Measurements – David A. Bell – PHI.

EE-301/ 401 Electrical Machines-I CR-4 D.C. Machine: Construction, Principle of operation, Armature winding, Simplex Lap and wave winding. Dummy coil, equalizer rings.

Emf equation, Armature reaction, effect of armature reaction upon flux distribution curve, Effect of brush shift, Demagnetizing and cross magnetizing ampere turns commutation, Interpoles and compensating winding.

D.C. Generator:

Types – Separate and self excited generators, no load and load characteristics. Voltage-build up in shunt generator, Critical field resistance and critical speed. Voltage regulation, Application

D.C. Motor: Principle, Back emf, Torque and speed formula. Various types and their characteristics. 3-point and 4-point starters. Grading of starting resistance, speed control of D.C. motor, Losses and efficiency, Testing-Brake test, Swinburn’s test and Hopkinson’s test.

Single phase transformer:

Construction – core and shell type. Principle of operation, emf equation, Voltage and current ratio, operation at no load and under load. Phasor diagram, equivalent circuit, Voltage regulation. Losses and efficiency, all day efficiency. Testing – Open circuit and short circuit tests, sumpner test and parallel operation.

Auto Transformer: Construction, Principle of operation, equivalent circuit phasor diagram. Application.

Three-phase Transformer: Construction, transformer connection and vector group, open delta connection.

Phase transformation: 3- phase to 6- phase, 3-phase to 12-phase, 3-phase to 2-phase. Three winding transformers. Various constants and equivalent circuit. Time harmonics in single phase and 3 phase transformer, Parallel operation. Timing in phenomena.

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Text Book:

Electrical machine-1 by B.L.Theraja S.Chand Publications

ELctrical Machine I By K. Krishna Reddy Scitech Publication ( India)

EE-403 Electrical machines CR-4 DC Generator: Construction, Principle of operation, emf equation, Types of generators, no-load and load characteristic, voltage build up of shunt generator, voltage regulation. Application

DC Motor: Construction, Principle of operation , back emf, speed and torque formula, motor characteristic and performance curve. Speed control of DC shunt and series motor, Necessity of starter, 3-point starter, Losses and efficiency, Industrial application.

Transformer: Single phase transformer, Construction, principle of operation, emf equation, equivalent circuit and phasor diagram. Open circuit and short circuit test, regulation losses and efficiency.

Three phase transformer: Construction and connection.

Synchronous Machines: Three-phase alternator, Construction , principle of operation, pitch and distribution factor, emf equation, phasor diagram, Voltage regulation by synchronous impedance method.

Three-phase synchronous motor: Construction, principle of operation, V-curves, method of starting and application

Three-phase Induction motor: Construction, squirrel cage and slip ring type, principle of operation and equivalent circuit and phasor diagram, Torque slip characteristic, starting torque and maximum torque, staring and speed control and application.

Single phase Induction Motor: Construction, starting method and application.

Universal motor: Construction and principle of operation, Application.

Text Book -- Electrical Technology Volume-II By B.L.Theraja , S.Chand and Company.

EE-404/504 Electrical Machines-II CR-4 Synchronous Machine:

Construction – Cylindrical and salient pole machines, 3 phase A.C. winding, different types, pitch factor and distribution factor, emf equation. Generation of harmonic emfs and their elimination.

Armature resistance and leakage reactance, armature reaction, rotating magnetic field.

Synchronous Generator:

Cylindrical rotor theory:-

Phasor Diagram, Equivalent circuits, armature reaction reactance,

Synchronous reactance and impedance, open circuit and short circuit test, short circuit ratio, voltage regulation - emf method, mmf method, modified mmf method, zero power factor characteristics, Potier reactance and load characteristics, power angle equation.

Salient pole theory: BLONDEL’S two reaction theory, phasor diagram, direct and quadrature axis reactance. Slip test. Power angle equation.

3-Phase Synchronous Motor: Principle of operation, phasor diagram, V curves and inverted V-curves, Power angle equation for both salient and cylindrical rotor machine, starting method. Synchronous condenser and power factor correction, Hunting, Application

Three phase Induction motor:

Construction, Squirrel cage and Slip ring type.

Principle of operation, Slip, equivalent circuit and phasor diagram. Mathematical analysis power and torque relations, Expression for torque, maximum torque, Slip-torque characteristic. Effect of rotor resistance. Performance calculation by equivalent circuit and circle diagram. No load and blocked rotor test.

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Starting: Various methods for squirrel cage and slip ring motor.

Speed control: Voltage control, frequency control, variation of rotor circuit resistance, pole changing, cascade method and slip power recovery scheme.

Single phase Induction Motor: Construction, principle of operation, revolving field theory and cross field theory.

Starting methods: Split phase capacitor start and run. Repulsion start. Repulsion induction motor. Sheded pole motor. Performance curve and Application.

Single phase A.C. Series Motor:

Plain series motor, Compensated series motor. Repulsion motor their construction, principle of operation, phasor diagram. Performance curve and Application.

Single phase reluctance and Hysteresis motor. Linear induction motor.

Text Book:

1. Induction and synchronous machines by K. Murgesh Kumar Vikash Publishing House Pvt. Ltd, New Delhi.

2. Electrical Machines II by K.Krishna Reddy by Scitech Publication ( India ) BBSR.

EE-503 Electric Power Transmission and Distribution CR-4

Introduction of Power System: Single and 3-phase Transmission, concept of complex power, per unit system.

Line constants: Resistance, Inductance and capacitance of single phase and 3-phase lines with symmetrical and unsymmetrical spacing. Transposition of power lines bundled conductors and mutual GMD, skin and proximity effect. Charging current due to capacitance effect, effect of earth on capacitance line.

Performance of Transmission Line: Analysis of short, medium and long lines. Equivalent circuit representation, ABCD constants, and its calculation Ferranti Effect, surge Impendence and surge Impendence loading.

Corona: Critical disruptive voltage, corona losses, factors affecting corona, advantages and disadvantages of corona, line design based on corona, Radio interference, Inductive interference between power and communication line (Electromagnetic and electrostatic effect)

Over Head Line Insulators: Types of insulators, insulator material, potential distribution over a string of suspension insulators, Methods of equalizing the potential.

Mechanical design of overhead transmission line: Sag and stress calculation, effect of Ice and wind loading, vibration dampers.

Underground cables: Types and construction, grading of cables, insulation resistance of a cable, capacitance in 3 core cable, dielectric losses, overhead lines versus underground cables.

Distribution systems: Types of distributors and feeders, voltage drop and load calculation for concentrated and distributed loads. Economic choice of conductor size, Kelvin’s law.

Symmetrical Component: Symmetrical component and their application in analysis of transmission line fault analysis.

Substation & Earthing: Types of substations, arrangement of busbars and control equipments, solid earthing, resistance earthing and Peterson coil.

E.H.V (A.C.) & H.V. (D.C.) Transmission: Introduction advantages and disadvantages of E.H.V (A.C.) & H.V. (D.C.) Transmission.

Text Books:

1) Principles of Power System, V. K. Mehta, Rohit Mehta, fourth Revised Edition, S. Chand & Company Limited.

Reference Books:

1) Electrical Power Systems, C. L. Wadhwa, New Age International (P) Limited, Publishers.

2) A Course in Power Systems, J. B. Gupta, S. K. Kataria & Sons Publishers and Distributors.

3) A Text Book on Power System Engineering, A. Chakrabarti, M. L. Soni, P. V. Gupta, U. S. Bhatnagar, Dhanpat Rai & Company (P) Limited.

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EE-505 Electromagnetic Fields CR-4 Coordinate System: Rectangular, Cylindrical and spherical, Transformation.

Vector Calculas: Gradient, Divergence and curl operation.

Static Electrical Field: Coulomb’s Law, Electric field intensity due to continuous line charge, surface charge and volume charge. Gauss’s law, Maxwell’s equation, Application of Gauss’ law. Electric potential, equipotential surface electric dipole.

Electric field in material space, Electric properties of material. Convection current, Conduction current. Continuity equation, Poisson’s and Laplaces equation, Procedure for solving.

Steady magnetic field: Magnetic forces, Biot and savart’s law. Amper’s circuital law, Magnetic scalar and vector potential, Energy stored in magnetic field, Inductor’s and inductance.

Time varying Field: Charged particles moving in a static magnetic field. Moving conductor in a static magnetic field. Faraday’s law. General case of induction. Displacement current. Maxwell’s equation.

Electromagnetic waves, wave equation, wave propagation in lossy, lossless dielectric. Plane wave in free space. Pointing vector. Reflection and Refraction in plane wave and normal and oblique incidence.

Transmission line, Transmission line equations, transmission line parameters. Transmission line arc circuit element.

Text Book:

1. Element of Electomagnetics by M.N.O Sadiku, 2nd edition, Oxford

2. Engineering Electromagnetics by Hyat

EE-502/602 Power Electronics CR-4

Introduction to Power Electronics: Advantage of power devices operating in the switch mode to those operating in the active region.

Power Electronic Devices: Thyristor characteristics , Turn ON methods, Dynamic Characteristics of thyristors, Ratings, Protection, Two Transistor Model of Thyristor Characteristics & construction of Power MOSFETS, Comparison between Power MOSFET & Power BJT

Characteristics & construction of IGBT, Forward & Reverse Blocking Capability, Latch up, Switching characteristics, Safe operating area, snubber protection

GTO – turn on and turn off methods, IGCT characteristics

TRIAC and DIAC Characteristics and applications

AC to DC Converters: Single Phase Converters – Half Wave, with R, RL, RLC load and Free Wheeling diode, Single Phase Full Wave converters with R & RLC Load, Line Commutated Inverters, Single Phase Semi Converters, 3 Phase converters, Dual Converters, 3 Phase Semi converters, Effect of Source Inductance on Performance of single phase converters

Thyristor Forced Commutation Circuits

DC to DC Converters: Step up & Step Down choppers, 2 and 4 quadrant choppers for control of DC motor.

Inverters: 1 Phase Half Bridge & Full Bridge Inverters, 3 Phase Inverters, 180° and 1200 conduction, Voltage Control Of inverters: Single Pulse and multiple Pulse Width Modulation, Sinusoidal Pulse Width Modulation, Concept of Current source Inverters.

AC to AC Converters: Single phase AC to AC Controllers with R and RL load, Single Phase Cycloconverters with R and RL load.

SMPS : Advantage of Switch Mode Power Supply over Conventional Power Supply, Flyback converters.

Text Book: Power Electronics By M. D. Singh and K. B. Khanchandani, Tata McGraw-Hill publishers, Second Edition.

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Reference:

1. Power Electronics By M. H. Rashid, Pearson Education, 3rd Edition

2. Power Electronics, Converters, Applications & Design N. Mohan, Undeland & Robbins, John Wiely & Sons , Third Edition

3. Power Electronics, by P S Bhimbra

EE603 Power Apparatus Design CR-3 Electrical Engineering materials: conducting, Insulating and magnetic materials.

Magnetic circuit design: Calculation for mmf in air gap and teeth of rotating machine.

Thermal design: Heating and cooling curves. Calculation of maximum temperature rise in various parts of machine.

Design of transformer: Output equation, Emf per turn. Design of core, Yoke and window, Design of L.V. and HV winding. Calculation of no load current losses efficiency and temperature rise. Cooling of transformers, Design of tank and tubes.

Design of D.C. machines: Specific electric and magnetic loading. Output equation, Design of main dimension, Design of armature winding, Conductor and slot.

Design of field system. Magnetic circuit calculation Design of shunt and series field winding. Design of commutator and commutating poles. Losses, efficiency and temperature rise.

Design of 3-phase induction motor. Output equation and main dimension. Design of stator winding, slots. Design of rotor, rotor winding of cage and slip-ring induction motor. Calculation of no load and short circuit current performance calculation by circle diagram.

Design of 3-phase alternator. Output equation and main dimension, Design of stator core and winding. Design of field system. Losses, efficiency and temperature rise.

Text Book: Electrical Machine Design By A.K. Sawheny, Dhanpat Rai & Co.Nai Sarak-Delhi – 110 006.

EE 604 Control System-I CR-4

Introduction: Basic concept of control system, classification, Servomechanism and regulators, transfer function

Description of physical system: Mathematical modeling of mechanical system,

Mathematical modeling of electrical system, Analogous system, Mathematical model of armature controlled D.C motor and Mathematical model of field controlled D.C motor.Block diagram Algebra, Developing block diagram from a mathematical model, signal flow graph, mason’s gain formula, Signal flow graph from block diagram.Signal flow graph terminology, construction & procedure,Application of signal flow graph to control system, Problem practice

Feedback theory: Feedback & non feedback systems, reduction of parameter variation by use of feedback, Control of the effects of disturbance signals by use of feedback, Regenerative feedback

Time domain analysis: Standard test signal: step, ramp, parabolic, & impulse.

Time response of first order system,Response to the unit step input , response to the unit ramp input, Time response of second order system, Response to the unit step input ,Time response specification,steady state error & design specification,Error constant of second order system, Derivative and Integral control PID controller

Concept of stability: The concept of stability, necessary condition for stability, Routh- Hurwitz stability criterion, Relative stability analysis, Application of Routh stability criterion to linear control systems

The Root Locus Technique: Root locus concept, construction of root locus, construction rules, Determination of gain from root locus

Frequency domain analysis: Introduction, Correlation between Time and frequency Response, Polar plots, Bode Plots, Nquist stability criterion, Stability analysis, relative stability

Closed loop frequency response: Constant M-circles and N-circles. Nichols chart

Control system & components: Electrical system: A.C. Servomotor, D.C. Servomotor

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A.C tachometer, potentiometer, snychrous, A.C & D.C position control system

Text book: 1) Control System Engg, by I.J.Nagrath & M Gopal New age international publication

2) Modern Control Engg. by K. Ogata, PHI, Publication

Reference book:

1. Automatic control systems by Prof. B.S. Manke & S.N.Verma, Khanna publication.

EE- 605/805 Switchgear and Protection CR-3

Introduction to Switchgear: Requirement of circuit breakers, characteristic of electric arc, principles of AC and DC arc interruption. Recovery and restriking voltages and effect of current asymmetry upon them, current chopping, resistance switching, circuit breaker ratings.

Circuit Breakers: Types of AC and DC circuit breakers in general, oil circuit breaker, plain break and controlled break Oil circuit breaker, minimum oil circuit breaker, air blast circuit breaker, vacuum and SF6 circuit breaker, introduction to miniature case circuit breaker and moulded case circuit breaker, H.R.C. Fuse, its construction, capacity and characteristic, arrangement of circuit breakers, isolators and bus bars, limiting reactors in power system, calculation of fault MVA for symmetrical short circuits and determination of circuit breaker capacity.

Protective Devices: Philosophy of protection, definition of different terms in protective systems, requirement of ideal protective scheme, basic elements in protective scheme, methods of grounding and their effects on fault conditions, construction and principle of operation of attracted armature type, balanced beam type, induction type, over current, directional, impedance, reactance and mho relays, static relays.

Feeder Protection: Time graded over current and earth fault protection, directional relays and their connection, calculation of graded time setting, distance relaying, impedance, reactance and mho relays, arrangement of relay contacts.

Pilot Wire Protection: Circulating current system, pilot wire scheme, opposed voltage system, Merz Price protection scheme, protection of spit core and parallel feeders, carrier current protection, introduction to microwave pilot system.

Alternator Transformer Protection: Different types of faults, differential protection with biasing, restricted earth fault protection, automatic field suppression and neutral circuit breaker, negative sequence protection.

Power Transformer Protection: Biased differential protection, harmonic restraint, restricted earth fault protection, Buchholz relay, protection of combined alternator and transformer.

Bus Bar Protection: Differential scheme for both phase and line faults, frame leakage scheme, translay scheme, introduction to digital protective relay and microprocessor based relays.

Protection Against Surges: Ground wire, surge absorbers, rod gap, horn gap lightning arresters.

Text Book:

1. “Switchgear Protection and Power Systems”, Sunil S. Rao, Khanna Publishers.

Reference Books:

1) “A Course in Power Systems”, J. B. Gupta, S. K. Kataria & Sons Publishers and Distributors.

2) “Principles of Relaying”, Van Warrington, Y. G. Paithankar.

3) “Fundamentals of Power System Protection”, Y. G. Paithankar, S. R. Bhide, Eastern Economy Edition, Prentice Hall of India Private Limited, New Delhi.

EE-606/706 Power Station Engineering CR-3 Introduction: Introduction to different sources of Energy. Discussion on application of energy sources to power station.

Thermal power : Layout of thermal power plant, Main Equipment, Coal Handling plant, Boiler, Super heater, Reheater, Economizer ,Air Preheater steam turbine, Ash handling plant, condenser, Cooling tower and ponds, Feed water Heater, E.S.P, Power supply to auxiliaries.

Hydro Power Plant: Classification according to (i) Water Flow (ii) Load (iii) Head surge tank,

Penstock, spillway, Tail Race.Types of turbine (i) Pelton turbine, (ii) Francis turbine, (iii) Kaplan turbine, Governor, specific speed, Plant auxiliaries.

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Nuclear power plant: Location, Layout of nuclear power plant, Fission, Fusion, controlled chain reaction, Classification of Nuclear reactors –Advanced Gas cooled Reactor, Pressurized Water Reactor, Boiling Water Reactor, Fast Breeder Reactor, and Cooling of reactors.

Diesel Electric Power plant: Introduction, Selection of site, Layout and Main components, Application.

Gas Turbine: Principle of operation.

Electrical System: Different types of alternators, Construction, Excitation systems-Dc Exciter, Ac Exciter, Static Exciter Generator Transformer, Unit auxiliary transformer, Station Transformer. Methods of neutral grounding of generators and power transformers in a power plant. Testing and commissioning of generators and power transformers.HT, EHT and LV Substation arrangements. Station batteries and battery chargers.

Economic Aspects: Load curve, Load duration curve, connected load Maximum demand, demand factor, average demand Load factor, diversity factor, Plant capacity Factor, Plant Use Factor

Tariffs-Types, power factor improvement.

Text Books-

1. Generation of electrical energy by B.R.Gupta,

2. Power Station Engineering by M.V. Despande

EE – 607 High voltage AC & DC Transmission CR-3

Calculation of inductance matrix of a 3-ph. System

3-Ph. Line with ground return, 3-Ph. Line with single ground wire, 3-ph. Line with double ground wire, 3-Ph. Double circuit transmission line, regularly and irregularly transposed line, calculation of sequence impedance matrix

Calculation of capacitance matrix of a 3-Ph. System

3-Ph. Line with ground return, 3-Ph. Line with single ground wire, 3-ph. Line with double ground wire, 3-Ph. Double circuit transmission line, regularly and irregularly transposed line, calculation of sequence capacitance matrix and line charging capacitance

Over voltages in transmission system

Methods for calculation of over voltages- graphical, Analytical, Numerical, and by using a transient network analyzer (TNA). Modelling of transmission lines (Lumped and distributed)-03L. Frequency domain analysis-03L. Time domain analysis-03L of single phase and three phase lines.

Protection against over voltage

Various protection schemes against over voltages, surge arrestors, their types ratings and applications, protection of T/m lines against lightning, various design methods viz. Empirical and Electro-geometric model.

Corona and Radio interference

Calculation of corona losses using various empirical relations, calculation of Audible Noise(AN) level, Radio Interference(RI) level, Electrical clearances based on fast front and slow front switching lightning and power frequency over voltages and their calculation

Substation design

Types of Sub-stations, design aspects of sub-stations, various types of switching arrangements and their merits & demerits, layout of sub-station viz. open & inverted bus arrangement grounding system design of sub-station, various methods to determine the ground resistance and soil resistivity, design of grounding grid, calculation of body current.

Transmission line design

Study of various aspect of transmission line design and planning.

HVDC Transmission system

Control and protection of HVDC system- characteristics of convertor, constant ignition angle control, constant current control, compounding of convertors, harmonics & filters

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Reactive power compensating devices

Principles of series and shunt compensation, various types of compensating devices, static and dynamic compensation, study of FACTS devices and their application in power system control, TCR-FC, TSC-TSR, SVC, STATCOM, UPFC

References

a) EHVAC Transmission Engineering-By Begamudre b) HVDC Power Transmission- By K. R. Padiyar c) Power System Grounding & Transients- By APS Meliopoulos d) Analysis of Faulted Power System- By P.M. Anderson. e) Overhead Power Lines-Planning design & Construction by F. kiessling, P. nefzger, J.F. Nolasco and U.

Kainzyk

The Electric Power Engineering Handbook by Grigsby

EE-609/709 Power System Operation & Control CR-4

Representation of Power System components

Concept of Real, reactive and complex powers, Power flow through a transmission line, Circle diagrams at receiving and at sending end.

Load Flow Studies

Importance of load flow studies, bus classification, Nodal Admittance matrix, Load flow problem, approximate load flow solution, Gauss Siedel Method, acceleration of convergence, Newton Raphson method,

Economic Operation of Power Systems

Introduction, optimal operation of generators, Distribution of load on various generating units, penalty factor, and Transmission loss as a function of plant generation, Automatic load dispatch.

Automatic Generation & Voltage Control

Introduction, load frequency control, turbine speed governing system, Modeling of speed governing system, turbine model, generator load model, Integrated representation of various models, steady state analysis, dynamic response, control area concept, proportional plus integral control, two area load frequency control, automatic voltage regulator.

Transient Stability Analysis

Introduction to stability, dynamics of synchronous machines, swing equation, power angle curve and its equation, steady state stability, equal area criterion, effect of clearing time on stability.

Text Books:

1. Modern Power System Analysis, I. J. Nagrath, D. P. Kothari, Tata McGraw-Hill Publishing Company Ltd, New Delhi.

2. Power System Analysis Operation and Contrrol, Abhijit Chakrabarti, Sunita Halder, Third Edition, PHI Learning Private Limited

EE-711 Advanced Power Electronics CR-3

AC – DC Converters:

Rectifier Circuit Design, L & C filter design, Design of Heat Sinks. Power factor improvement of rectifier circuits.

DC to DC converters:

Continuous and Discontinuous conduction of buck and boost converters. Buck -boost & Cuk converters. Chopper Circuit Design.

PWM Inverters:

Review of Inverter circuits. Bipolar & Unipolar switching scheme. Modulation Strategies, Performance of 3 phase Sinusoidal PWM Inverters. Trapezoidal modulation.

103

Resonant Converters:

Hard switching and Soft switching. Series resonant Inverter, Series Resonant Inverter with bidirectional switches, frequency response. ZCS and ZVS resonant converters.

Electronic Ballasts

SMPS:

Flyback Converters, Forward Converter, Current Mode Control. Magnetic Materials suitable for high frequency transformers, Design of High Frequency transformers and Inductors

FACTS:

Review of the principles of power transmission. Shunt compensation. Thyristor controlled reactor. Static VAR compensator. Principles of series compensation. Thyristor controlled series capacitor. Series static VAR compensator. Unified Power Flow Compensator.

Gate drive Circuits :

Gate drive circuits for thyristor, MOSFET, IGBT, BJT, GTO

Static Switches: AC switches and DC switches

Text Books: Power Electronics By M. H. Rashid, Pearson Education, 3rd Edition

Reference Books: Power Electronics, Converters, Applications & Design N. Mohan, Undeland & Robbins

EE-707 High Voltage Engineering CR-4

Scope of High Voltage Engineering, Philosophy of High Voltage testing

Generation of High Voltage and Currents

Generation of High Voltage AC – By Tesla coil, Resonant Circuits and Cascade Transformers. Generation of High Voltage DC-voltage Double Circuits, Cockeroft Walton voltage multiplier circuit, Ripple voltage, voltage regulation, Van-de-Draft Generators, principle of series and shunt type voltage stabilizers. Generation of Impulse Voltage – Standard impulse wave shapes, Analysis of impulse Generator Circuit of series R-L-C type, Restriction on the ratio of the generator and load capacitances, Waveshape control. Multistage impulse Generators-Marx Circuit, Constructional details, tripping and synchronization. Generation of switching surge voltage. Generation of Impulse currents.

Measurement of High Voltage and Currents

Measurement using Electrostatic voltmeters, Generating Voltmeters, Sphere gap, Potential Dividers, cathode Ray Oscilloscope. Peak reading a.c. Voltmeter-Chuub-Frotscue method.

High Voltage Testing of Electrical Apparatus

Indian Standard Specification for D.C., A.C. and impulse and High frequency testing of Insulators, Bushings, Isolators and Circuit Breakers, Cables Lighting Arrestor, Transformer. Introduction to Non-destructive testing materials and Electrical apparatus.

Conduction and Breakdown in gases

Concept of Electrical stags, Ionization process, General Characteristics of Gaseous Insulation, Electrical Breakdown of gases, Townsend current growth Equation. Townsend’s criterion for breakdown. Experimental determination of ionization coeffiencients, Breakdown in Electronegative gases. Time lags for breakdown. Pashen’s law, Streamer theory of breakdown Introduction to partial discharge phenomenon, lighting phenomenon

Conduction and Breakdown in Liquid dielectrics

Pure and Commercial Liquids, conduction and Breakdown in Commercial liquids, Electronic, Cavitation and suspended particle theory.

Breakdown in solid dielectrics

Intrinsic, Electromechanical, Thermal, Treeing and Tracking, Breakdown in composite dielectrics.

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Design of High Voltage Laboratories

Test facilities provided in High Voltage laboratories, Classification of High Voltage laboratories, selection and rating of HV test equipment, layout and cleamance, Shielding and grounding of high voltage Laboratories, Introduction to the problem of Electromagnetic interference.

Introduction to D.C. Power Transmission Technology

Comparison of AC and DC Transmission, Description and Application of DC Transmission. Planning for HVDC Transmission, Modern Trend in DC Transmission.

Reference:

1. M.S. Naidu & V. Kamraju: High Voltage Engg. TMH publishing Co. Ltd. New Delhi. 2. E.KUFFEL & W. Zaengl: High Voltage Engg. Fundamentals, Pergamom press. 3. K.R. Padiyar: HVDC power Transmission System, Wiley Eastern ltd. 4. I.S. Specifications pertaining to relevant portions

EE 704 Advanced Electrical Machines CR-4 Analysis of three phase synchronous machine: Synchronous machine inductances, stator self inductance, rotor self inductance. Stator mutual inductance, rotor mutual inductance. Performance equation in terms of d-q variables.

Steady state Analysis, Equivalent circuit, phasor diagram, Power angle equation, Symmetrical three-phase short circuit analysis. Transient and sub transient reactances, transient and subtrasient time constants, sudden3-phase short circuit, armature and field current wave form and analysis, Determination of various constant from test data.

Analysis of three phase induction machine: Machine equation in terms of phase variable steady state performance equations, equivalent circuit, phasor diagram. Unbalanced operation of three phase induction motor-operation with unbalanced supply voltage, operation with single phase stator, operation with single phase rotor.

Some special topics on transformer: Voltage surges in transformer, harmonic phenomena in 3-phase transformer, unbalance loading of 3-phase transformer. Single-phase loading, neutral shifting.

Special Machines: Construction, operating principle and application of

Reluctance motor, Hysteresis motor, Linear motor, Stepper motor, Brushless D.C. motor, Variable reluctance motor.

Text Book:

1. Generalized Theory of Electrical Machines by P.S. Bimbhra

EE-705 Control System-II CR-4 State variable analysis and design:

To define & explain Linear continuous time system, concept of state, state variables and state model with suitable examples. To derive state representation using phase variable. To derive state representation using canonical variable.To derive Transfer function from state equations. Diagonalization. Derive Characteristics equation, eigen values and eigen vectors. Solution of state equations. To explain State transform matrix and it’s properties, Computation by Laplace t ransform. Vander monde matrix and modal matrix. Computation by caley-hamilton theorem. Digitalization using similarly transform. Concept of controllability and Observability. Effect of pole zero cancellation in transfer function, controllability & observability (for discrete case ).

Discrete time system:

Sample data digital control system, uniform periodic sampling, mathematical description of sampling process,

Spectrum analysis, sampling theorem, aliasing, signal reconstruction using zero order hold. Z-transform of signals & discrete sequences. Z-transform theorem, its properties. The Z-transfer function (pulse transfer function). Inverse Z-transform method. Difference equations, Solution. Z-transform analysis of sample data control systems. Z-and S-domain relationship. Transient and steady state response analysis. Stability criteria, jury’s test, root locus technique, bilinear transformation.

105

Cascade compensation in frequency domain:

Cascade & feedback compensation, Lag compensator, transfer function & bode plot. Lead compensator, transfer function & bode plot. Correlation of time & frequency domain specifications. Comparison of lead & lag compensator using bode plot.

Non-linear systems

Behaviour of nonlinear systems. Common physical non-linearities, saturation, friction, backlash, dead zone and relay. Linearization of non linear system around equilibrium points. Basic concept of describing function. Derivation of describing function. Phase plane method: basic concept. Singular points. Phase plane trajectory of simple nonlinear system. Stability analysis of non linear system, limit cycle, Liapunov’s direct method.

Text book: 1) Control system Engg. By I.J. Nagrath &M Gopal

New age publication

2) Modern control engineering by K. Ogata (PHI)

Reference book:

1) Control systems Engineering by R.Ananda Natarajan & P.Ramesh Babu(SCITECH)

2) Discrete time control systems by K. Ogata (PHI)

3) Automatic control system by Hasan Saeed

EE-701 Electric Drive CR-4 Introduction:

Basic elements of an electric drive,4 quadrant operation of an electric drive, dynamics of Motor load combination, types of loads, stable operating condition of various motor load combinations.

Rating and Heating of Motors: Thermal model for motor heating and cooling. Classes of Motor duty, determination of power rating of motors for various applications, equivalent current and equivalent torque. Effect of load inertia over motor rating, Load equalization.

DC motor: Review of characteristics of DC motors, Modification of characteristics of DC shunt and series motors. Methods of starting DC motor. Fundamental parameters of speed control.

Methods of speed control of DC shunt and series motors. Concept of Electric Braking, regenerative, Dynamic & Counter current braking of DC motors.

Induction Motors: Review of characteristics of 3 phase Induction motors. Modification of speed torque characteristics due to variation of: stator voltage, Stator frequency, rotor resistance. Methods of starting, Squirrel Cage and slip ring Induction motors. Methods of speed control of Induction motors: Voltage control, V/f control, Rotor resistance control, Slip Power recovery. Electric Braking of Induction Motors: Regenerative Braking, DC Dynamic braking and plugging.

Solid State Control of DC drive: Phase controlled and Chopper controlled DC Separately excited motor and series motor drives. 4 quadrants drive using dual converter. Closed loop control scheme for DC motor.

Solid State Control of Induction Motors: Control of IM by 3 phase AC-AC Voltage controller. Chopper control of rotor resistance. Speed control using slip power recovery schemes. PWM Inverter fed induction motor drives. Current source inverter fed induction motor drives; Comparison of VSI & CSI fed drives. Closed loop control ( V/f control).

Industrial Application of Electric Drives: Applications of electric drives in Steel Plants Mills, Cement Plants and Textile mills.

Text Book:

Electric drives By G.K. Dubey, Norosa Publishers

Reference:

1. A First course on Electrical drives By S.K. Pillai 2. Electric Drives, Concept & Applications By Vedam Subramanium

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EE-712 Non – Conventional Energy Sources CR-4 Fundamentals of Energy – Science and Technology: Energy Consumption and standard of living, Classification of Energy Resources, Importance of Non-Conventional Energy Sources, Common Forms of Energy, Advantages and Disadvantages of Conventional energy Sources, Salient Features of Non-Conventional Energy Sources, Environmental Aspects of Energy, Word Energy Status, World Energy Status, Energy Scenario in India

Solar Energy – Basics: Extraterrestrial and Terrestrial Radiations, Spectral Energy Distribution of Solar Radiation, Depletion of Solar Radiation, Solar Radiation Data, Solar Time (Local Apparent Time), Solar Radiation Geometry, Solar Day Length, Empirical Equations for Estimating Solar Radiation, Availability on Horizontal Surface for Cloudy Skies, Hourly Global, Diffuse and Beam Radiations on Horizontal Surface Under Cloudless Skies, Solar Radiation on Inclined Plane Surface.

Solar Thermal Systems: Solar Collectors, Solar Water Heater, Solar Pasive Space – Heating and Cooling Systems, Solarind Ustrial Heating Systems, Solar Refrigeration and Air – Conditioning Systems, Solar Cookers, Solar Furnaces, Solar Green House, Solar Dryer, Solar Distilation (or Desalination of Water) Solar Thermo-Mechanical Systems

Solar Phogovoltaic Systems: Solar Cell Fundamentals, Solar Cell Characteristics, Solar Cell Classification, Solar Cell, Module, Panel and Array Construction, Maximizing the Solar PV Output and Load Matching, Maximum Power Point Tracker, (MPPT), Balance of System Components, Solar PV Systems, Solar PV Applications.

Wind Energy: Origin of Winds, Nature of Winds, Wind Turbine Sitting, Major Application of Wind Power, Basics of Fluid Mechanics, Wind Turbine Aerodynamics, Wind Turbine Types and Their Construction, Wind Energy Conversion Systems (WECS), Wind – Diesel Hybrid System, Effects of Wind Speed and Grid Condition (System Integration), Wind-Energy Storage, Environmental Aspects, Wind – Energy Programme in India.

Biomass Energy: Photosynthesis Process, Usable Forms of Biomass, their Composition and Fuel Properties, Biomass Resources, Biomass Conversion Technologies, Urban Waste to Energy Conversion, Biomass Gasification, Biomass Liquefaction, Biomass to Ethanol Production, Biogas Production from Waste Biomass, Energy Farming, Biomass Energy Programme in India.

Geothermal Energy:

Applications, Origin and Distribution of Geothermal Energy, Types of Geothermal Resources, Analysis of Geothermal Resources, Exploration and Development of Geothermal Resources, Environmental Consideration, Geothermal Energy.

Ocean Energy:Tidal Energy, Wave Energy, Ocean Thermal Energy

Emerging Technologies: Fuel Cell, Hydrogen Energy.

Books / Reference:

1. B.H.Khan, “Non – Conventional Energy Resources” Tata Mc Graw Hill.

2. Bansal Keemann, Meliss," Renewable energy sources and conversion technology", Tata Mc Graw Hill.

3. Kothari D.P., “Renewable energy resources and emerging technologies”, Prentice Hall of India Pvt. Ltd.

4. Rai G.D, "Non-Conventional energy Sources", Khanna Publishers.

5. Ashok V. Desai, "Nonconventional Energy", New Age International Publishers Ltd.

EE-708 Renewable Energy Sources CR-4 Fundamentals of Energy – Science and Technology: Energy Consumption and standard of living, Classification of Energy Resources, Importance of Non-Conventional Energy Sources, Common Forms of Energy, Advantages and Disadvantages of Conventional energy Sources, Salient Features of Non-Conventional Energy Sources, Environmental Aspects of Energy, Word Energy Status, World Energy Status, Energy Scenario in India

Solar Energy – Basics: Extraterrestrial and Terrestrial Radiations, Spectral Energy Distribution of Solar Radiation, Depletion of Solar Radiation, Solar Radiation Data, Solar Time (Local Apparent Time), Solar Radiation Geometry, Solar Day Length, Empirical Equations for Estimating Solar Radiation, Availability on Horizontal Surface for Cloudy Skies, Hourly Global, Diffuse and Beam Radiations on Horizontal Surface Under Cloudless Skies, Solar Radiation on Inclined Plane Surface.

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Solar Thermal Systems:Solar Collectors, Solar Water Heater, Solar Pasive Space – Heating and Cooling Systems, Solarind Ustrial Heating Systems, Solar Refrigeration and Air – Conditioning Systems, Solar Cookers, Solar Furnaces, Solar Green House, Solar Dryer, Solar Distilation (or Desalination of Water) Solar Thermo-Mechanical Systems

Solar Phogovoltaic Systems: Solar Cell Fundamentals, Solar Cell Characteristics, Solar Cell Classification, Solar Cell, Module, Panel and Array Construction, Maximizing the Solar PV Output and Load Matching, Maximum Power Point Tracker, (MPPT), Balance of System Components, Solar PV Systems, Solar PV Applications.

Wind Energy: Origin of Winds, Nature of Winds, Wind Turbine Sitting, Major Application of Wind Power, Basics of Fluid Mechanics, Wind Turbine Aerodynamics, Wind Turbine Types and Their Construction, Wind Energy Conversion Systems (WECS), Wind – Diesel Hybrid System, Effects of Wind Speed and Grid Condition (System Integration), Wind-Energy Storage, Environmental Aspects, Wind – Energy Programme in India.

Biomass Energy:Photosynthesis Process, Usable Forms of Biomass, their Composition and Fuel Properties, Biomass Resources, Biomass Conversion Technologies, Urban Waste to Energy Conversion, Biomass Gasification, Biomass Liquefaction, Biomass to Ethanol Production, Biogas Production from Waste Biomass, Energy Farming, Biomass Energy Programme in India.

Geothermal Energy:Applications, Origin and Distribution of Geothermal Energy, Types of Geothermal Resources, Analysis of Geothermal Resources, Exploration and Development of Geothermal Resources, Environmental Consideration, Geothermal Energy.

Ocean Energy:Tidal Energy, Wave Energy, Ocean Thermal Energy

Emerging Technologies: Fuel Cell, Hydrogen Energy.

Books / Reference:

1. B.H.Khan, “Non – Conventional Energy Resources” Tata Mc Graw Hill.

2. Bansal Keemann, Meliss," Renewable energy sources and conversion technology", Tata Mc Graw Hill.

3. Kothari D.P., “Renewable energy resources and emerging technologies”, Prentice Hall of India Pvt. Ltd.

4. Rai G.D, "Non-Conventional energy Sources", Khanna Publishers.

5. Ashok V. Desai, "Nonconventional Energy", New Age International Publishers Ltd.

EE -710 Theory of Electrical Machines. CR-3 D.C. machines D.C. generator –Construction, principal of operation, emf equation, various types. Characteristics D.C. motor- Construction, Principal of operation Back emf, torque and speed equation. Characteristics and performance curves. Speed control, 3 point starter Application. Loser and efficiency Transformers Single phase transformer construction and principal of operation emf. equation no load and full load operation. Phasor diagram, equivalent circuit open and short circuit test, regulation, losses and efficiency. 3 phase transformer-Construction and connection Synchronous machines 3 phase alternator construction and principal of operation emf equation, phasor diagram, Voltage regulation. 3phase synchronous motor-Principle of operation, V curves, starting method. applications 3 phase induction motor Construction of squirrel cage and slip ring type induction motor, principle of operation, torque slip characteristics, equivalent circuit, starting and speed control. Applications Single phase induction motor Construction and principal of operation of single phase induction motor. Its starting methods. Construction and principle of operation of universal motor. Text book- 1. Electrical Technology By B.L. Theraja vol II A.C. and D.C Machines, S.Chand and Co. Delhi

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EE-803 Computer Applications in Power Systems CR-3 Introduction to Computer Methods

Network matrix, reference frames, primitive matrix, network graph, oriented graph, sub graph, path, connected graph, tree, branch link, co-tree, basic loops, basic cut set, node element incidence matrix, bus element incidence matrix or bus incidence matrix [A], branch path incidence matrix, relationship between [K] and [A], Augmented cut set matrix, basic cut set incidence matrix, basic loop incidence matrix, Augmented loop incidence matrix, primitive networks, representation of network components, network matrix by singular transformation, bus admittance matrix by singular transformation, branch admittance and branch impedance matrix by singular transformation, loop impedance and loop admittance matrix by singular transformation.

Three Phase Networks

Representation of three phase elements in impedance and admittance form, balanced three phase elements excited by balanced and unbalanced excitation, transformation matrix for symmetrical components, incidence and network matrix for three phase elements, algorithm for formation of ZBUS.

Short Circuit Studies

Representation of three phase elements in short circuit studies, simplifying assumptions for short circuit studies, short circuit calculations for balanced three phase network using bus impedance matrix, three phase to ground fault, L-G fault, L-L-G fault, L-L fault, three phase fault with and without fault impedance.

Transient Stability Studies

Load representation, network performance equation, swing equation, machine equation, solution techniques for transient stability studies, modified Euler’s method, Runga Kutta fourth order method.

Load Flow Studies

Importance of load flow studies, bus classification, Nodal Admittance matrix, Load flow problem, approximate load flow solution, Gauss Siedel method, acceleration of convergence, Newton Raphson method, Load flow programs and their comparison.

Text Books: 1) Computer Methods in Power System Analysis

Glenn W. Stagg, Ahmed H. El-Abiad, McGraw-Hill Book Company, International Editions.

2) Advanced Power System Analysis and Dynamics L. P. Singh, New Age International (P) Limited, Publishers

EE-802 Utilization of Electric Power CR-3 Economics Aspects: Classification of costs, Formulation of Electric Tariff, Various kinds of Tariff, Economics of generation. Effect of load factor, Diversity factor and power factor on tariff, Power factor improvement.

1. Electric Heating: Advantage of Electric heating. Heating methods, Resistance furnace, Some heating alloys, Causes of failure of heating element. Temperature control of resistance furnace, Arc furnace, Induction heating, Dielectric heating, Generation of dielectric heat, dielectric heating principle, Comparison between dielectric and induction heating.

2. Electric Welding: Electric welding-Arc welding, Resistance welding circuit used in electric welding. Electric welding equipments and arc welding. Welding accessories.

3. Illumination: Terms used – Light, luminous flux, luminous intensity, Lumen candle power, illumination Lux, Lamp efficiency, Brightness Glare, Space height ratio, coefficient of utilization. Maintenance factors, Depreciation factors, Laws of illumination, Solid angle, Sources of light – Arc lamp, Incandescent lamp, Sodium Vapour lamp, Mercury vapour lamp, fluorescent lamp, Neon lamp. Types of lighting scheme. Design of lighting.

4. Electrolytic process: Faradays law of electrolysis, Extraction of metal, Electroplating. 5. Electric Drive: Types of drive, Types of load, Selection of electric drive. 6. Electric Traction: System of Track electrification, typical speed-time curve, Tractive effort calculation, Specific

energy consumption calculation. Electric traction motors, Electric braking, Power supply for electric traction. Text Book: Utilization of Electric Power & Electric Traction By J.B. Gupta, S.K. Kataria & Sons Delhi.

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EE-804 Electric Traction CR-3 Traction systems:- Different systems of traction Electric Traction its advantage and disadvantages. Systems of Electric traction, Systems of Track electrification, Companion between D.C. and A.C. system.

Power supply for electric traction:- Current collection systems, Current collectors for overhead system. Traction substations, Location and major substation equipment

Electric trains:- Main line trains, suburban train, Electric buses, trains and trolleys. Nature of traction load. Coefficient of adhesion. Duty cycles of a train. Speed time curve, approximate speed time curve. Average speed, schedule speed. Braking – Electric and mechanical braking. Power factor and harmonics. Electric traction motors Control of motors. Calculation of Traction drive rating and energy consumption. Calculation of Tractive effort and specific energy consumption. D.C and A.C Traction drive:- D.C. Traction drives employing Resistance control. 25KV, 50 Hy a.c. Traction. D.C. traction employing, 3 phase ac motors. A.C. traction employing, 3 phase ac motor. Text book:- 1. Utilization of Electric Power and electric traction- By J.B. Gupta, S.K. kataria & sons, Delhi 2. Electric drive by G.K. Dubey, Norosha Publishers.

EE-809 Theory of High Voltage Engineering CR-3

Generation of High Voltage and Currents

Generation of High Voltage AC – By Tesla coil, Resonant Circuits and Cascade Transformers. Generation of High Voltage DC-voltage Double Circuits, Cockeroft Walton voltage multiplier circuit, Ripple voltage, voltage regulation, Van-de-Draft Generators, principle of series and shunt type voltage stabilizers. Generation of Impulse Voltage – Standard impulse wave shapes, Analysis of impulse Generator Circuit of series R-L-C type, Restriction on the ratio of the generator and load capacitances, Waveshape control. Multistage impulse Generators-Marx Circuit, Constructional details, tripping and synchronization. Generation of switching surge voltage. Generation of Impulse currents.

Measurement of High Voltage and Currents

Measurement using Electrostatic voltmeters, Generating Voltmeters, Sphere gap, Potential Dividers, cathode Ray Oscilloscope. Peak reading a.c. Voltmeter-Chuub-Frotscue method.

High Voltage Testing of Electrical Apparatus

Indian Standard Specification for D.C., A.C. and impulse and High frequency testing of Insulators, Bushings, Isolators and Circuit Breakers, Cables Lighting Arrestor, Transformer. Introduction to Non-destructive testing materials and Electrical apparatus.

Conduction and Breakdown in gases

Concept of Electrical stags, Ionization process, General Characteristics of Gaseous Insulation, Electrical Breakdown of gases, Townsend current growth Equation. Townsend’s criterion for breakdown. Experimental determination of ionization coeffiencients, Breakdown in Electronegative gases. Time lags for breakdown. Pashen’s law, Streamer theory of breakdown Introduction to partial discharge phenomenon, lighting phenomenon

Conduction and Breakdown in Liquid dielectrics

Pure and Commercial Liquids, conduction and Breakdown in Commercial liquids, Electronic, Cavitation and suspended particle theory.

Breakdown in solid dielectrics

Intrinsic, Electromechanical, Thermal, Treeing and Tracking, Breakdown in composite dielectrics.

Reference:

1. M.S. Naidu & V. Kamraju: High Voltage Engg. TMH publishing Co. Ltd. New Delhi. 2. E.KUFFEL & W. Zaengl: High Voltage Engg. Fundamentals, Pergamom press. 3. K.R. padiyar: HVDC power Transmission System, Wiley Estern ltd. 4. I.S. Specifications pertaining to relevant portions.

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ELECTRONICS & TELECOMMUNICATION ENGINEERING COURSES

EC-101/201 Basic Electronics CR-3 Semiconductors

Energy band concept of materials, difference between metal, insulator and semiconductor, Intrinsic and extrinsic semiconductors (n-type & p-type), current conduction in semiconductor, direct and indirect bandgap semiconductors, Photodiode, photo-transistor, LED and seven-segment display. Junction Diodes Operation of p-n junction diode, diode characteristics, half-wave, full-wave and bridge rectifiers, rectifiers with C, LC and LC π filter, clipper and clamper circuits, breakdown mechanisms, Zener diode and voltage regulator. Bipolar Junction Transistor (BJT) Transistor operation and current components in p-n-p and n-p-n transistors, CE, CB, CC configurations and characteristics, biasing, load line analysis. Field Effect Transistors (FET) Operations of p-channel and n-channel JFETs, characteristics of JFET, operation of MOSFET and its characteristics. Power Amplifiers Class A, B, C and push-pull amplifiers. Feedback Concept General feedback structure, properties and advantages of negative feedback, Barkhausen criteria for oscillation. Operational Amplifiers (OPAMP) Ideal OPAMP, CMRR, virtual ground, Inverting and non-inverting OPAMPs, summing amplifiers, Differential amplifier, integrator & differentiator. Digital Electronics Number systems, conversions and codes, Logic gates & Truth tables (OR, AND, NAND, EX-OR), flip-flops (RS flip-flop, D flip-flop, JK flip-flop and MS flip-flop). Shift register, Asynchronous(ripple) counter. Electronic Instruments Operation of CRO and its applications, Signal Generator. Text Books 1. Electronic Devices and Circuits – D. A. Bell (PHI) 2. Electronics –Fundamentals & Applications –D. Chattopadhyay and P. C. Rakshit (New Age Intl) Reference Books 1. Electronic Devices & Circuits – R. L. Boylestad & L. Mashelsky (PHI) 2. Electronic Principles – A. Malvino & D. J. Bates (TMH) 3. Digital Principles and Applications– A. Malvino and Leach (TMH) 4. Integrated Electronics – J. Millman & Halkias (TMH)

EC – 301 ANALOG ELECTRONIC CIRCUITS – I CR – 4 Transistor Biasing Circuits :

Different types of biasing circuits for BJT & FET, Stability factors & Bias compensation.

Small Signal Analysis of BJT :

The transistor model & hybrid model, Graphical determination of h-parameters. Low frequency small signal analysis of CE, CC and CB configurations without feedback, Simplified CE & CC hybrid model, CE amplifier with an emitter Resistance.

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Small Signal Modeling and Analysis of FETs :

Small Signal Model of FET, Analysis of JFET CS & CD configuration. Analysis of Enhancement and Depletion MOSFETs.

BJT and JFET Frequency Response :

Classification of Amplifiers, Distortion in amplifiers, Frequency response of an amplifier, Lower Cut Off frequency and higher Cut Off frequency of an amplifier, Step response of an amplifier, Bandpass of cascade stages, Low frequency response of RC coupled BJT and FET amplifier, High frequency modeling and analysis of BJT and FET amplifiers, Miller effect capacitance.

Compound Configurations :

Differential amplifier, Differential amplifier circuit configuration, DC Analysis, AC Analysis, Constant current bias, current mirror, level translator, Cascade, Cascode and Darlington connections.

Feedback and Oscillator Circuits :

Feedback concept, Feedback amplifier topologies, General characteristics of negative feedback amplifier, input and output resistance with negative feedback, Method of analysis of feedback amplifiers with practical examples, Positive feedback, Barkhausen Criterion of Oscillation, Sinusoidal Oscillator, LC Oscillators, RC phase shift oscillator, Crystal Oscillator.

Power Amplifiers :

Definition of class A, B and C types. Distortion analysis, Series fed and transformer coupled power amplifier, Conversion efficiency, Push-pull amplifiers.

Text Book : 1. Integrated Electronics – J. Millman & Halkias – TMH Reference Book : 1. Electronics Devices and Circuit Theory – Robert L. Boylestad and Lewis Nashelsky – PHI (9th Edition)

EC - 302 Signals & Networks CR-4 Introduction to Signals

Definition, Classification and its examples, Representation of discrete time signals Basic operation on signals, Decomposition of signals in terms of the elementary signals in continuous time as well as in discrete time, Analog to Digital conversion, Sampling theorem, Comparison of Ω & ω, Test of periodicity for discrete time signals and sum of two periodic signals, Representation of analog and discrete time signals in terms of impulses

Introduction to Systems

Definition, classification and its examples, Linear Convolution, Causality and stability of LTI systems, Representation of causal LTI systems, Order of systems, IIR and FIR systems, Correlation

Continuous time Fourier Analysis

Significance of Fourier series in LTI systems, Continuous time fourier series formula and derivation, Dirichlet conditions & properties, Approximation of Fourier series to fourier transform for aperiodic signals, Properties, examples ,amplitude and power spectra, Analysis of LTI systems using Fourier Transform

Laplace Transform

Definition, S-Plane mapping, ROC properties and examples, Fourier and Laplace relation, Pole-Zero plot, Analysis of LTI systems, Transfer function, Transients in AC/DC circuits, RL, RC, RLC with constant and sinusoidal excitation with LT, Resonance, Q-Factor, Bandwidth

Analog Filters

Definition, Classification of 1st and 2nd order filters and their electrical circuit equivalent cut-off frequencies.

Networks

Network topology, Tree, Nodes, Branches, Mesh Analysis, Loop Analysis, Admittance matrix, Maximum power transfer theorem, Reciprocity Theorem, Star-delta Transformation, Dot convention for coupled circuits, Coefficient of coupling, Two port network, Z, Y, ABCD and H-Parameters

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Text Book :

1. Signals & Systems – P. Ramesh Babu –Scitech 2. Network Analysis – P. Ramesh Babu –Scitech

Reference Book :

1. Signals & Systems – Alan V Oppeinhem, Alan S Willsky - Pearson

EC - 303 Semiconductor Devices CR-3 Energy bands & Current Carriers in Semiconductors:

Bonding Forces in Solids, Energy Bands theory in crystals (Qualitative Analysis), Metals, Semiconductors, & Insulators, Fermi-Level, Intrinsic, Extrinsic Semiconductors, Concept of Holes, Carrier Conc. and Mobility, diffusion and drift or carriers, continuity equation, Injected minority carrier charge. Recombination & generation of charge carriers .

P- N Junction:

Physical Description of p-n junction, current flow at a junction, I –V characteristics, Quantitative analysis of p-n diode characteristics, equivalent circuit, temperature dependence, Capacitance of p-n junction diode (transition & storage), junction Breakdown (Avalanche & Zener), Step and linearly graded junction, diode switching characteristics, M – S junction (Schottky barrier, Ohmic contact and rectifying contact), Hetero-junction.

BJT :

Junction transistor, Charge transport in BJT, base narrowing (Early effect), Avalanche breakdown & Punch Through, transistor switching, Coupled-Diode model, Ebers-Moll equations.

MOSFET:

MOS structure, Basic operation of Enhancement & Depletion mode MOSFET, MOS capacitance (Operation with band diagram, threshold voltage & Characterristics), CCD and applications.

Opto – Electronics:

Optical absorption in semiconductors, photovoltaic effects, solar cells (p-n junction), Photoconductors, Photodiode, PIN photodiode, Avalanche photodiode, Phototransistor, LED, Semiconductor Laser (p-n junction)

Text Book: 1. Solid State Electronic Devices by Streetman & Banerjee, PHI Reference Books: 1. Semiconductor Devices: Jasprit Singh, John Wiley. 2. Integrated Electronics: Millman & Halkis, TMH 3. Semiconductor Physics and Devices: Donald Neaman, TMH 4. Semiconductor Devices: Kanan Kano, PHI. 5. Semiconductor Optoelectronic Devices: Pallab Bhattacharaya, Pearson. 6. Semiconductor Physics: Device & Technology: S. M. Sze, John Wiley. 7. Semi Conductor Physics & Devices, D. Neaman, Oxfod.

EC – 304 / 404 Measurements & Instrumentation CR–4 Measurement & Error

Calibration of Instruments, Accuracy, Precision & Resolution, Types of Errors, Statistical analysis, Probability of error, Limiting error.

A.C. & D.C. bridges

General equation for bridge balance, DC bridges: Wheatstone bridge, Kelvin’s double bridge; General form of AC bridge; Maxwell’s inductance-capacitance bridge, Anderson’s bridge, Schering bridge, Wien’s bridge; Sources of error in bridge measurement, Wagner’s earthing device.

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Electrical Measuring Instruments

Classification of instruments, Overview of PMMC, Moving iron, Dynamometer type instruments, Overview of Ammeter, Voltmeter, Multimeter, True RMS voltmeter, Potentiometer, Current transformer, Potential transformer, Strip chart recorders.

Transducers

Strain Gauges, LVDT, Thermistor & Thermocouples, Piezo – electric transducer and Bourdon tube.

Electronic Measuring Instruments & CRO

Q-meter, Digital Voltmeter, Digital frequency meter, CRO: construction, Time base circuit, measurements with CRO, CRO probes.

Signal Generator & Waveform Analyzing Instruments

Function generator: Square, triangular & sinusoidal waveform generator & Spectrum analyzer

Analysis Instruments

Principles of operation of pH meter, Liquid chromatography, Spectrophotometer

Text Books:

1. Electrical and Electronic Measurements & Instrumentation, By A.K. Sawhney - Dhanpat Rai

2. Electronic Measurement & Instrumentation, By H. Cooper – PHI.

Reference Books:

1. Electronics Instruments & Measurement by David A. Bell – PHI.

EC–401 Analog Electronic Circuits – II CR–4 Op-amps and its Parameters:

Block diagram representation, Analysis of equivalent circuit, Types of IC Op-amp, Power Supply for IC Op-amp, Input offset voltage, Input Bias current, Input offset current, total output offset voltage, Thermal drift, PSRR, Common mode configuration and CMRR, Noise in Op-amp, Slew rate.

Op-amp with Negative Feedback:

Op-amp circuits using negative feedback (voltage series, voltage shunt feedback), Differential amplifiers.

Frequency Response of an Op-amp :

Frequency response, Compensating Networks, Frequency response of compensated and non-compensated Op-amp, high frequency Op-amp equivalent circuit, open loop voltage gain as a function of frequency, Closed loop frequency response, Circuit stability.

Op-amp Applications:

Instrumentation amplifiers, Voltage to current converter and vice versa, Integrator, differentiator, first and second order active filter, Phase shift oscillator, Wien bridge oscillator, voltage to frequency converter, comparator : Zero crossing detector & Schmitt Trigger, Sample and Hold circuit, the 555 timer as Monostable and Astable mode, PLL and its applications, IC voltage regulators.

Linear Wave Shaping Circuits:

High pass and low pass circuit, Response of RC circuit to various inputs such as sinusoidal, step, pulse, square wave, exponential and ramp. High pass RC circuit as a differentiator. Low pass RC circuit as an integrator, Attenuator and its application.

Negative Resistance Devices:

Tunnel diode & UJT, their V – I characteristics and performance analysis.

Voltage Time Base Generators:

General feature of time base signal, exponential sweep circuit. Miller & Bootstrap time base generator.

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Current Time Base Generators : Simple current sweep, Linearity correction and Transistor current time base generator. Text Books: 1. Op-amos & Liner Integrated Circuits – R. K. Gayakwad – PHI 2. Pulse, Digital and Switching waveforms –J. Millman & H. Taub – TMH Reference Books: 1. Liner Integrated Circuits – D. Ray Choudhury & Shail Jain (New Age) 2. Pulse Digital Circuit – Anand Kumar - PHI

EC–402 Digital Electronic Circuits CR-4 Introduction to Boolean Algebra Signed binary number, Binary arithmetic, Codes—BCD, Gray, Excess-3, Error detection & Correcting code, Hamming code, Universal gates, Boolean Algebra, Basic theorems & properties of Boolean Algebra, De-Morgan’s theorem, Minterms & Maxterms, K-map representation, simplification and realization with logic gates.

Combinational Circuits Adders (Half and Full adders, parallel binary adders, look ahead carry adder generator), Magnitude comparator, decoders (3 to 8, BCD to Decimal decoder, BCD to SSD) and Encoders, Priority Encoder, Multiplexer and Multiplexer-tree, De-multiplexer, Parity generator/checkers.

Sequential Logic Shift Register (SISO, SIPO, PIPO, PISO, Bidirectional), Counter (ripple and synchronous), Ring and Johnson Counters), 555 Timer & applications, Multivibrators (astable, monostable and bistable), Schmit Trigger.

Memory Memory concepts, RAM, ROM, uv- EPROM, EEROM, Flash memory, Optical memory.

Programmable Logic Devices PAL, PLA, PROM, FPGA and Programmable ASIC

Finite State Machine (FSM) Model of Finite State Machine-State diagram, Mealy and Moore models, Logic diagrams, State table, State reduction, State assignment, Excitation table. Realization of memory elements (S-R, J-K, T, Master-Slave)- State diagram, state table, Excitation table, Synthesis of Synchronous sequential circuits (Sequence detector, parity-bit generators). Minimization of completely specified sequential machine, Simplification of incompletely specified machine.

Algorithmic state machine (ASM) chart, Logic diagram and ASM chart using Multiplexer, PLAs and ROM

Logic Families Transistor as switch, Characteristics (Propagation delay, Speed-power product, Noise margin, Fan-in, Fan-out), Standard logic families (RTL, TTL, ECL, CMOS).

D/A and A/D Digital to Analog converter (Binary weighted resister network & R-2R ladder network), Analog to Digital converter (Flash type, Counter type & Successive approximation type).

Text Book

1. Fundamentals of Digital Logic – Anand Kumar - PHI 2. Digital Logic and Computer Design – M. Morris Mano – PHI

Reference Books:-

1. Digital Principles and Applications – Malvino & Leach - TMH

2. Digital Fundamentals – T. L. Floyd & Jain – Pearson Education

EC-403 Electromagnetic Theory CR-4 Static Electric Fields: Co-ordinate systems, Coulomb’s law, Gauss’s law and applications, electric potential, conductors and dielectrics in static electric field, electric flux density and dielectric constant, boundary conditions for electrostatic fields, electrostatic energy density. Poisson’s and Laplace’s equations

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Static Magnetic Fields: Lorentz’s force equation, Ampere’s circuital law, vector magnetic potential, Biot-Savart law and applications, relative permeability, boundary conditions for magnetostatic fields.

Time Varying Fields and Maxwell’s Equations: Faraday’s law, Maxwell’s Equations in point form and integral form, displacement current, Lorentz gauge condition, electromagnetic boundary conditions, interface between a dielectric and a perfect conductor, wave equations and their solutions, source-free wave equations, Helmholtz’s wave equation in free space, principle of duality.

Plane Electromagnetic Waves: Plane waves in lossless media, polarization of plane waves, plane waves in lossy media, low-loss dielectrics, skin depth, group and phase velocities, flow of electromagnetic power and Poynting vector, normal and oblique incidences of electromagnetic waves (parallel & perpendicular polarized) at plane perfect conducting and dielectric boundaries, Brewster’s angle

Theory and Applications of Transmission Lines: Transverse electromagnetic wave along a parallel plate transmission line, lossy parallel plate transmission lines, general transmission-line equations, wave characteristics on an infinite transmission line, transmission line parameters, attenuation constant from power relations, wave characteristics of finite transmission lines, transmission lines as circuit elements, transmission lines with resistive termination and arbitrary termination, transmission line circuits, Smith chart, quarter wave transformer, single stub and double stub matching.

Waveguides and Cavity Resonators: Transverse electric and transverse magnetic wave propagations in rectangular and circular waveguides, wave impedances, rectangular cavity resonator, quality factor of the rectangular cavity resonator.

Text Books:

1. Field and Wave Electromagnetics - D. K. Cheng, Pearson Education.

2. Electromagnetic Waves and Radiating Systems - E. C. Jordan & K. G. Balmain, PHI.

Reference Books:

1. Engineering Electromagnetics – W. H. Hayt Jr. & John A. Buck, Tata McGraw-Hill.

2. Elements of Electromagnetics – M. N. O. Sadiku, Oxford University Press

EC - 405 Analog Communication Techniques CR-4 Introduction

Introduction to communication system, dB, dBm, concept of bandwidth, spectral efficiency, Auto-correlation and Cross-correlation, Hilbert Transform, Pre-envelope, base-band and band-pass signals.

Amplitude Modulation and Demodulation

AM DSB-FC, DSB-SC, Modified SSB, Concept of Pilot Carrier, Independent Sideband, Calculation of transmitted power, Efficiency, SSB-SC, Modified SSB, Independent side band, concepts of pilot carrier, VSB, method of recovery of the band signal, square law demodulator, Envelop detector, FDW

Angle Modulation and Demodulation

Phase and frequency modulation, Relationship between PM & FM, phase and frequency deviation, spectrum of an FM signal, some features of Bessels coefficient, Effect of modulation index on Bandwidth, Phasor diagram for FM signals, FM generation, parameter variation method, Armstrong system for NBFM, Frequency multiplier. An example of an Armstrong FM system, FM Demodulators, FM detection using PLL, Pre-emphasis and De-emphasis

AM Radio Receiver

AM Super heterodyne receiver and characteristics of a receiver, Principle Block Diagram, Typical features, Front end output S/N, Sensitivity, Selective, Fidelity

FM Radio Receiver

Block Diagram of FM, Receiver, Noise in RF Amplifier, FM Detector: Slope Detector, Discriminator, Phase-locked loop, Selectivity, sensitivity of FM Receiver.

Pulse Modulation and Demodulation

Sampling theorem (low pass and Band pass signals), pulse Amplitude modulation, Channel bandwidth for PAM signal, TDM, Natural sampling, Flat – top sampling, signal recovery through holding, PWM, PPM.

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Noise in Communication

Sources of noise, Frequency domain representation of noise, White Noise, Colored Noise spectral component of noise, Signal to Noise Ratio, Response of a Narrow Band filter to noise, Effect of a filter on the PSD of noise

Noise in AM System

SNR of SSB/SC, DSB/SC, DSB/FC system, Square law demodulator, Comparison of AM, SSB, DSB, VSB modulation schemes.

Noise in FM System

Calculation of output SNR, comparison between FM and PM, Threshold in FM

Text Book:

1. Principle of Communication System – H. Taub & D.L.Schilling – TMH

Reference Books:

1. Communication System – Simon Haykin – John Willey 2. Communication System – B. P. Lathi – Oxford University Press

EC–406/506 Introduction to Digital Communication CR-4 Signal:

Signals in time domain, Fourier transform, Periodic and non periodic signal Analysis, spectral density.

Analog Modulation:

Types of analog modulation, Need for modulation, principles of AM, Types of AM (DSB, SSB, VSB), power relationship, principle of FM & PM, Types of FM, spectrum of FM, Bandwidth of FM (Carson’s rule).

Pulse Modulation:

Sampling Theorem, PAM, PWM, PPM, TDM, FDM.

PCM & Delta Modulation:

Quantization process, PCM, Noise consideration in PCM system, Delta and Adaptive Delta modulation.

Digital Modulation Techniques & Data Transmission:

ASK, FSK, PSK, DPSK, QPSK, probability of error, BER calculation, matched filter, relationship between Bit error rate and symbol error rate, comparison of modulation system, Data Communication systems, parity, Asynchronous and Synchronous transmission, low speed, medium speed and high speed modems.

Basic Information theory: Information and Entropy, Binary symmetric channel and Binary error channel, Shannon’s channel capacity theorem, capacity of Gaussian channel, Basics of source and channel coding (Huffman, Cyclic codes). Text Book: 1. Principle of Communication System – H. Taub & D. Schlling, TMH Reference Books : 1. Communication Systems – Simon Haykin, 4th Edition, John Wiley 2. Data & Computer Communication – W. Stallings, Pearson

EC - 501 Digital Communication Techniques CR-4 Introduction

Brief Idea of Probability, Random Variable, Random Process, Cumulative Distributive Function, Probability Distributive Function, Mean, Variance, Power spectral density, Gaussian, Rayleigh, Exponential and Poisson PDF

PCM, Delta Modulation and Demodulation

Pulse Code Modulation Electrical representation of Binary Digit, The PCM system, companding, Multiplexing of PCM signals, Differential, PCM, Delta Modulation, Adaptive Delta Modulation, linear predictive coder, Comparison of PCM and DM.

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Noise in PCM and Delta – Modulation and Demodulation System

Quantization noise, Output Signal Power, thermal noise, output SNR in PCM, Quantization noise in DM, Output SNR in DM, Delta pulse code modulation, effect of Thermal noise in DM

Digital Modulation and Demodulation Techniques

Band-pass transmission system, Gram-Schmidt orthogonalization, BPSK, DPSK (Differential Encoded PSK), QPSK, π/4 QPSK, OQPSK, M-ary PSK, BFSK, M-ary FSK, Minimum shift keying (MSK), GMSK. Comparison of BPSK, QPSK, π/4 QPSK, OQPSK, BFSK, GMSK modulation schemes in terms of probability of error and spectral efficiency

Data Transmission

Base-band Signal Receiver, Probability of Error, The Optimum Filter, White noise, the Matched filter, Probability of Error of Matched Filter. Coherent Reception: Co-relation PSK, FSK, Non-coherent Detection of FSK, Differential PSK and QPSK, Error probability of BPSK, BFSK & QPSK. Bit encoding, symbol-by-symbol Encoding. Relationship between Bit error rate and symbol effort rate. Probability of Error in Quadrature Partial shift key system, comparison of Modulation system.

Introduction to Information Theory and Channel Capacity

Discrete message, The Concept of amount of information, Information entropy, Information rate, coding to increase average information per bit, Shannons’s Theorem, Channel Capacity, Capacity of Gaussian Channel, Bandwidth – S/N Trade off.

Text Book 1. Principles of Communication System – H. Taub & D.L. Schilling – TMH.

Reference Books 1. Communication System – Simon Haykin, John Willey 2. Modern Analog & Digital Communication System – B.P.Lathi, Oxford University Press

EC – 502 Microprocessors & Microcontrollers CR–4 8085 Microprocessor Architechure : Introduction, 8085 Architechure, Pins & signals. Instruction Set of 8085 and Software Development : Addressing Modes, Timing Diagrams, 8085 Instructions, Assembler Directives, Sample programs, Software development tools. Memory Interfacing : Memory chips (27 series EPROM and RAM chips), Memory interfacing . 8085 Interrupts : Hardware Interrupts, Selective masking, Interrupt structure. Interfacing Chips : Programable peripheral Interface (8255), Priority Interrupt Controller (8259), Concepts of serial communication and USART (8251). 16 bit Processor (Intel 8086) Introduction, Architechure, Pins & Signals, Addressing Modes, Instruction & Assembly language programming, Interrupts, Memory interfacing. 8051 Family of Microcontrollers : Introduction, Overview of 8051 family, Architechure & Memory organization, Pins & signals, Addressing Modes, 8051 Instructions & sample programs. Timers, Counters and serial communication.

Text Books :

1. Microprocessor architecture, Programming and Applications with the 8085 – Ramesh S. Goankar – Penram International Publishing (India)

2. Microprocessors and Interfacing, Programming & Hardware – Douglas V. Hall – TMH

3. Microcontroller Theory & Applications – R. Deshmukh - TMH

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Reference Books :

1. Introduction to microprocessors – A. P. Mathur – TMH Publication

2. Microprocessors & Microcomputer based System Design – Md. Rafiquzzaman

3. Advanced Microprocessor & Microcontrollers – Prof. S. K. Venkat Rama - Laxmi Publications

4. The 8051 Microcontroller & Embedded Systems – M. A. Mazidi – Pearson

EC–503 Optical & Satellite Communication CR-4 Optical Communication:

Introduction:

FM Frequency spectrum, Optical Frequencies, Principle of Light Propagation in a fiber, Advantages of optical fiber communication, Materials used for fabrication of optical fiber.

Wave Propagation in optical fiber:

Relation between refractive index and velocity of light, Basic structure and ray diagram of optical path in an optical fiber, Acceptance cone, Numerical aperture, Concept of modes, Qualitative analysis of E-M wave propagation in cylindrical wave guide, Different types of mode in optical fibers, Cut-off condition for guided modes, Boundary conditions, single mode / multi mode fiber, Concept of V number and its importance

Losses in fiber:

Intrinsic / Extrinsic losses, Material or impurity losses, Rayleigh scattering loss, Absorption loss, Bending loss, Leaky modes, Core and cladding loss, Concept of dispersion, Intermodal dispersion, Intramodal dispersion, Wave guide and material dispersion, Minimization of dispersion.

Optical sources:

Characteristics of good optical source, Principle of operation of LED, Types of LED structure and spectral characteristics, Principle of operation of laser diode, Laser structure, Comparison of LED / Laser, Intensity modulation using both LED and Laser diode.

Optical detectors: Principle of operation of PIN diode, Structure, Current characteristics, Principle of operation of APD, Structure, Current characteristic, Comparison of PIN / APD, Noises at optical receiver, Thermal noise, Short noise, SNR and Noise equivalent power. Fiber link: Optical link budget, Power budget, Rise time budget, Design of components. Concept of WDM, Passive components used in WDM, Types of WDM techniques. Satellite Communications: Introduction: Frequency spectrum for satellite communication, Types of orbits, Kepler’s Laws of planetary motion, Orbital perturbations, Geostationary orbit, Satellite lunching, General satellite communication, Block diagram uplink, Downlink frequencies, Types of modulation techniques used. Losses / Attenuation: Signal loss on transmission through earth’s atmosphere, Atmospheric losses, Inospheric effects, Rain attenuation. Satellite link budget: Transmission losses, Interference, System noise temperature, Link power budget Satellite sub-systems: Antenna sub-systems, Attitude and orbit control sub-system, Power sub-system, Communication sub-system, TTC&M sub-systems.

Satellite Application:

Satellite application in TV, Internet, Mobile telephony, Receive only home TV, Master Antenna TV, Low earth orbit Satellite systems and uses.

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Text Books:

1. Optical Fiber Communication - G. Kaiser – Tata Mc-Graw Hill

2. Satellite Communication –T. Pratt – John Willey Publications

Reference Books:

1. Optical Fiber Communication – J. C. Palais – Pearson Education

2. Satellite Communication – Denish Rsode - Tata Mc-Graw Hill

EC – 504 / 604 Digital Signal Processing CR-4 Module – 1

Brief idea about the DSP, Introduction to Fourier Transform, Introduction to Discrete Time Fourier Transform, Conditions and properties of DTFT, Discrete Fourier Transform, Properties of DFT, Inverse Discrete Fourier Transform, Circular Convolution Properties of Circular Convolution, Long duration sequences by digital filter method (overlap save and overlap add method),Fast Fourier Transform, Properties of FFT, Radix 2 Decimation in Time (DIT), Radix-2 Decimation in Frequency (DIF)

Module – 2

Introduction to Z – Transform, Definition of Z – Transform, ROC of the Z – Transform, System Transfer Function, Poles and zeros, Properties of Z – Transform, Inverse Z – Transform, Long division method, Convolution method, Partial fraction expansion method, Solution of difference equations using one sided Z – Transform, Response of pole-zero systems with Non-Zero initial conditions, Causality and stability of LTI systems in the Z-domain.

Module – 3

Introduction to Digital Filter, Design of IIR Filter using impulse invariance technique, Design of IIR Filter using Bilinear Transformation, Design of IIR Filter using Approximation of Derivatives, Realization of Digital Filters. Direct form – I realization, Direct form – II realization, Design of FIR Filter using Hamming window, Design of FIR Filter using Kaiser window, Frequency Transformations in the Analog domain, Frequency Transformations in the Digital domain

Module – 4 Introduction to multi-rate DSP, Decimation and interpolation, Polyphase decomposition, Uniform DFT filter banks, Quadrature mirror filters and perfect reconstruction, Introduction to finite register length effects on digital filter performance, Power Spectral estimation Text Book: 1. Digital Signal Processing – J. G. Proakis & D. G. Manolakes – PHI Reference Books: 1. Digital Signal Processing – Oppenheim & Schafer, PHI 2. Digital Signal Processing – P. Ramesh babu, Scieatech

EC–505 Communication Engineering CR-4 Introduction

Brief Idea of Probability, Random Variable, Random Process, Cumulative Distributive Function, Probability Distributive Function, Mean, Variance, Gaussian and Rayleigh PDF, White Noise, Colored Noise, Signal to Noise Ratio

Signals Signals in time domain, Fourier transform and Series, properties of FT and FS, Unit impulse and unit step function Amplitude Modulation Principle of AM, side bands, Power Relationship, Assignable Frequency spectrum, Sideband Transmission, DSB, SSB, VSB, Balanced Modulator, Block diagram of low level/high level modulated AM Transmitter, Typical characteristic features. AM Radio Receiver Super heterodyne Principle Block Diagram, Typical features, Front end output S/N, Sensitivity, Selective, Fidelity

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Angle Modulation

Principle of FM, Frequency Deviation, Spectrum of FM wave, Power in Modulated wave, Narrow band FM, Pre-emphasis, De-emphasis, Block Diagram of FM Transmitter, Reactance modulator, Typical Characteristic features

FM Radio Receiver

Block Diagram of FM, Receiver, Noise in RF Amplifier, FM Detector: Slope Detector, Discriminator, Phase-locked loop, Selectivity, sensitivity of FM Receiver.

Pulse Modulation

Sampling Process, Pulse Amplitude Modulation, Time Division Multiplexing, Frequency Division Multiplexing, The Quantization Process, Pulse Code Modulation, Noise consideration in PCM systems.

Digital Modulation

Data Form, Principles involved in PSK (BPSK, QPSK, π/4 QPSK), FSK, GMSK, Transmission Modes between stations, Data Communication Systems, parity, Asynchronous & Synchronous, Transmission,

Modern Communication System

Introduction to Modems, Block diagram Description of satellite communication, Fiber optic communication and Mobile communication.

Text Books:

1. Communication System – Simon Haykins – John Wiley

2. Modern Digital and Analog Communications Systems - B.P. Lathi - Hardcover, Oxford Univ Pr

Reference Books:

1. Principles of Communication System – H. Taub & D.L.Schilling – TMH 2. Communication Electronics – A. Freznel – BPB Publishing House

EC – 601 Antenna and Wave Propagation CR-4 Radiation and Thin Linear Antennas: Vector magnetic potential, retarded potential, radiation from an oscillating electric dipole, radiation resistance of quarter-wave monopole and half-wave dipole.

Basic Antenna Parameters and Theorems: Radiation patterns, E-plane & H-plane, directivity, gain, efficiency, effective length, effective aperture, wave polarization & cross-polarization, LHCP & RHCP, FRISS transmission formula, antenna noise temperature, applications of reciprocity theorem and other theorems in antennas.

Antenna Arrays: Uniform n-element linear array, broadside & end-fire arrays, grating lobes, principle of pattern multiplication, design of linear array using Tchebyscheff distribution, phased array, adaptive array, basic concept of smart antennas.

Biconical Antenna and Wire Antennas: Impedance of infinite & finite biconical antennas, helical antenna, loop antenna, V-antenna, rhombic antenna.

Reflector Antennas: Parabolic disc antenna, losses in disc antenna, tilted & off-set fed discs, Cassegrain reflector antenna.

Slot, Horn and Complementary Antennas: Slot antenna feedings and radiation pattern of slot antennas, Babinet’s principle and complementary antennas, impedance of complementary screens & slot antennas, Horn antennas, radiation from horn antenna.

Broadband and Frequency-Independent Antennas : Broadband antennas, Rumsey’s principle, frequency-independent planar log-spiral antenna, log-periodic antenna array, Yagi-Uda array

Microstrip Antennas: Radiation mechanism of microstrip antenna, advantages & disadvantages, bandwidth enhancement of microstrip antennas using stacked, proximity-coupled and aperture-coupled microstrip antennas.

Radio Wave Propagation : Surface wave, space wave, tropospheric wave propagation, tropospheric scatterer, ducting, inospheric layers, inospheric wave propagation, critical frequency, MUF, skip distance, fading, effect of the earth’s magnetic field, absorption of millimeter wave by rain and atmospheric gasses.

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Text Books:

1. Antennas for All Applications - J. D. Kraus & R. J. Marhefka, Tata McGraw Hill.

2. Electromagnetic Waves and Radiating Systems - E. C. Jordan & K. G. Balmain, PHI.

Reference Books:

1. Antenna Theory - Analysis and Design - C. A. Balanis, John Wiley & Sons, Inc.

2. Antennas and Radio Wave Propagation - R. E. Collin, McGraw Hill.

EC–602 VLSI Design CR-3 VLSI Methodologies:

Introduction to VLSI design, Moore’s Law, VLSI Design flow, Design hierarchy, VLSI Desin style: Full custom, Gate array, standard-cell, Macrocell based design, Field programmable devices, design quality.

MOSFET:

Electrical characteristics of MOSFET, Body effect, MOSFET scaling, Short-channel effects.

Unit process in VLSI:

Unit process in VLSI: Wafer preparation, Oxidation, Diffusion, Ion implantation, Deposition, Metallization, Etching and Lithography.

IC fabrication:

nMOS fabrication, n-well and p-well process, Stick diagram. Layout and Layout design rules.

CMOS Digital Circuits:

General CMOS logic structure, VTC of inverter, noise margin, Different types of inverter (resistive load, enhancement and depletion nMOS load and CMOS), Switching characteristic (propagation delay and parasitic capacitance estimation), switching power, latch-up, sizing for large capacitive load, NAND, NOR and other complex CMOS logic circuits. Dynamic CMOS logic circuits (Domino and NORA logic). Introduction of sequential CMOS logic circuits.

CMOS analog circuits: Differential Amplifier – Source coupled pair, CMRR, Basic CMOS op-Amp design. Physical Design Automation: Objectives and goals of partitioning, floor planning and placement, Global routing. Advanced topic: Low power VLSI Design and Testing. Text Book: 1. CMOS Digital Integrated Circuits – S. Mo. Kang and Yusuf Leblebici, 3rd Ed, TMH 2. Design of Analog CMOS Integrated Circuits --- B. Razavi, TMH. Reference Books: 1. Digital Integrated Circuits A Design Perspective -Jan M. Rabaey, Prentice-Hall Publication 2. Basic VLSI Design – D. Pucknell & Eshraghian _PHI 3. Principle of CMOS VLSI Design – Neil H. E. Weste – Pearson Edition 4. CMOS Circuit Design – R. Jacob Baker, Harry W. Li, David E. Boyce –PHI 5. CMOS Analog Circuit design--- P.E. Allen and D. R. Holberg, 2nd Ed, Oxford Unv. Press. 6. CMOS Logic Circuit --- John P. Uyemura, Springer. 7. Introduction to VLSI Circuit --- John P. Uyemura, John Wiley & Sons, Inc.

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EC – 606/806 Advanced Microprocessors CR-3 8086 MICROPROCESSOR :

Review of 8086 Architechure, Addressing Modes, Pins & Signals, Interrupts and Memory Interfacing

Minimum and maximum mode, Multiprocessor configurations, 8087 coprocessor

INTEL 80286 :

Introduction, Multiuser and Multitasking concepts, Virtual memory, Memory management, Architechure, Pins and signals, Real and protected modes of operations, Limitation of 80286

INTEL 80386 :

Introduction, Register organization, Pins & signals, Real and protected modes, Virtual – 86 mode, 80386 privilege levels and protection, Call gates, Task switching, Memory management : Segmentation, Paging, TLB

INTEL 80486 :

Introduction, Enhanced features

PENTIUM PROCESSOR :

RISC features, Architechure, Pipelining, Super scalar execution, Branch prediction

Text Books : 1. Microprocessors & Interfacing, Programming & Hardware by D. V. Hall-TMH 2. The 8088 and 8086 Microprocessors: Programming, Interfacing, Software, Hardware and Applications by Triebel

and Singh- Pearson Edn. 3. Microprocessors & Microcomputers based System Design by Md. Rafiquzzaman - UBS

Reference Books: 1. The Intel Microprocessors 8086/8088, 80186/80188, 80386, 80486, Pentium and Pentium Pro-Processor by B.

B. Brey – PHI 2. Advance Microprocessor and Peripherals – Architecture, Programming and Interfacing by A. K. Ray and K. M.

Bhurchandi – TMH 3. Microcomputer System: The 8086/8088 family: Architecture, Programming and Design by Liu & Gibson- PHI

EC – 607/707 Adaptive Systems & Signal Processing CR-3 Introduction to Adaptive Systems: Definition and characteristics of adaptive systems, General Properties, Open and closed Loop Adaptation.

Review of Probability Theory: Independent, uncorrelated and orthogonal random variables; stationary process, autocorrelation and autocovariance matrices, ergodicity, Areas of application.

Signal Modeling and Filtering: AR, MA and ARMA models. FIR and IIR Wiener Filter.

Theory of Adaptation with Stationary Signals: Basic Ideas of Gradient search method, MMSE method, Stability and Rate of Convergence, The Learning Curve, Gradient search by Newtons Method, Gradient search by the method of Steepest Descent, Comparison of Learning Curves. Adaptive

Algorithms and Structures: The LMS Algorithm derivation, Convergence, Learning Curve, Adaptive Recursive Filters, RLS Algorithm.

Text Books:

1) Adaptive Signal Processing by Bernard Widrow & Samuel D Stearns; Prentice Hall India.

Reference Books:

1) Adaptive Filter Theory by Simon Haykin; Pearson Education.

2) Probability, Random Variables and Stochastic Processes by A. Papoulis; McGraw Hill.

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EC – 701 RF & Microwave Engineering CR-4 Microwave Vacuum Type Amplifiers and Sources:

Limitations of conventional vacuum tubes, Klystron amplifier, Reflex Klystron oscillator, Travelling Wave Tube (qualitative), Backward Wave Oscillator (qualitative), Magnetron Oscillator.

Microwave Solid State Devices & Sources :

TED, RWH theory, Gunn effect, two-valley model theory, modes of operation of Gunn, READ diode, PIN diode, IMPATT diode, TRAPATT diode and BARITT diode.

Microwave Components :

Scattering matrix representation, variable attenuators, linear and rotary phase shifters, E-plane, H-Plane and Magic Tees, rat race power divider, two-hole and Bethe hole directional couplers, slotted section, matched terminations, coupling probes, crystal detector, Faraday rotation in ferrites, Faraday rotation isolator, Faraday rotation 3-port and 4-port circulators.

Microwave Integrated Circuits:

Introduction to microwave integrated circuits, stripline, microstrip line, slotline, CPW, coupled microstrip lines.

Periodic Structures and Microwave Filters:

Circuit analysis and wave analysis of periodic structures, microwave filters, filter design by insertion loss method and characterization by power loss ratio, design of Chebyshev filter, frequency transformation and expansion, low pass to high pass and low pass to band pass transformations, impedance and admittance inverters.

Microwave Measurements:

Power, frequency and impedance measurements, gain and radiation pattern measurement of antennas.

Text Books: 1. Microwave Devices & Circuits – S. Y. Liao, PHI 2. Microwaves : Introduction to Circuits, Devices and Antennas – M. L. Sisodia and V. L. Gupta, New Age

International. References Books:

1. Microwaves– K. C. Gupta, Wiley Eastern Limited. 2. Basic Microwave Techniques and Laboratory Manual - M. L. Sisodia and G. S. Raghuvanshi, Wiley Eastern

Limited. 3. Microwave Engineering – D. M. Pozar – John Wiley & Sons, Inc.

EC - 703 Computer & Communication Networks CR- 4 Introduction

Circuit Switching and Packet Switching, Statistical Multiplexing, Layered Architecture Overview

Link Layer Protocols

Framing, Error detection and correction, Retransmission Mechanisms (ARQ), Go Back N, Selective Repeat, Sliding window Protocol

Multiple Access Protocols

Aloha System, Carrier Sensing (CSMA, CSMA/CD, CSMA/CA), Splitting algorithms, Examples of Local area networks: Ethernet (IEEE 802.3), Wi-Fi (IEEE 802.11), WiMAX (IEEE 802.16)

Internetworking

Bridging, Global Internet, IP protocol and addressing (IP V4 and IP V6), Subnetting and supernetting, Classless Interdomain Routing (CIDR), IP address lookup, Domain Name Systems (DNS), Network Address Translator (NATs), Unicasting, broadcasting and multicasting, Routing in Internet: Routing: Link-state, RIP, OSPF, BGP, MPLS. ICMP

End to End Protocols

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TCP and UDP, Congestion Control, Additive Increase/Multiplicative Decrease, Slow Start, Fast Retransmit/ Fast Recovery, TCP Reno, NewReno, TCP Vegas etc, Congestion avoidance, RED, TCP Throughput Analysis , Active Queue Management, Recent TCP Versions

Queuing Models of Networks

Traffic Models, Little's Theorem, Markov chains, M/M/1 and other Markov systems

Socket Programming

Sockets, Type of sockets, TCP and UDP sockets, Sockets API (Application Programming Interface).

Quality of Services in Packet Networks

Packet Scheduling Algorithms: Fair queuing, FIFO, RR, DRR, WRR, WFQ, W2FQ, SCFQ etc, Voice over IP and IP Telephony, QoS in Internet

Introduction to Wireless/Ad-hoc Networking and Cross-layer network design

Text Books:

1. James F. Kurose and Keith W. Ross: Computer Networking – A top-down approach featuring the Internet, 2nd Edition, Pearson Education, Asia, 2004.

2. Larry L. Peterson and Bruce S. Davie: Computer Networks: A Systems Approach, 4th Edition, Morgan Kaufmann, 2004

Reference Books 1. D. E. Comer. Internetworking with TCP-IP: Principles, Protocols and Architecture, Vol I, 2nd Edition, Prentice

Hall, 1991. 2. W. Richard Stevens, UNIX Network Programming- Networking APIs: Sockets and XTI,, Volume 1, 2nd Edition:

Prentice Hall, 1998 3. D. E. Comer and D. L. Stevens. Internetworking with TCP-IP: Design, Implementation, and Internals, Vol II,

Prentice Hall, 1990. 4. D. Bertsekas and R. Gallagar. Data Networks, 2nd Edition, Prentice Hall, 1992. W. R. Stevens. UNIX Network

Programming, Prentice Hall, 1990. 5. Anurag Kumar, D Manjunath and Joy Kuri: Communication Networking – An analytical Approach, Morgan

Kaufmann, 2004.

EC – 704 Wirelesses & Mobile Communication Engg CR-4 Mobile Communication Principle:

Cellular Concept System Architecture, Spectrum Allocation, Frequency Reuse, Channel Assignment Strategies, Co-channel Interference & System Capacity, Hand off, Hand off structure, Practical Hand off consideration, Prioritizing Hand off, Power Control, Near – Far Problem, System capacity, Improvement Techniques : Cell splitting, Sectoring, Micro cell Zone concept.

RF Propagation & Multi-path Model:

Free space propagation model, propagation mechanism, Large Scale fading, Diffraction & Scattering by high – raise structures, shadowing and path loss, Small Scale Fading, Doppler and time-delay spread, coherence Bandwidth and coherence-Time, Types of Small – Scale Fading.

Modulation Techniques:

Overview of QPSK, Offset QPSK, π/4 QPSK, MSK, GMSK, QAM

Equalization and Diversity Techniques:

Fundamentals of Equalization, Adaptive equalizer, concept of diversity, Types of diversity (space, time, frequency, polarization, Rake receiver

Spread Spectrum modulation:

Spread Spectrum Modulation and principle, PN sequence and its properties. Direct sequence SS and frequency – hopped SS (DS – SS and FH – SS), TH – SS

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Multiple Access Techniques:

Multiplexing and multiple access, TDD and FDD techniques, Description of FDMA, TDMA, CDMA systems. Description and special features of GSM and IS – 95. Wireless data communication and services. Mobile communication standards, Transmitting and Receiving Antenna Systems.

Multicarrier Modulation:

Data transmission using multiple carriers, multi carrier modulation with overlapping sub channels, mitigation of sub carrier fading, Discrete Implementation of multi carrier modulation, DFT and its properties, The Cyclic Prefix, OFDM, Matrix representation of OFDM, Multi carrier CDMA

Multiple Antennas and space time communications:

Concept of Multi input multi output Antenna system, Narrow band MIMO model, MIMO channel capacity, MIMO Diversity gain, Space time Modulation & Coding.

Text Book :

1. Wireless Communication – T.S.Rappaport – Pearson Education 2. Wireless Communication – Andrea Goldsmith – Cambridge Press

Reference Book :

1. Wireless and Cellular Communication – C. Y. Lee – McGraw Hill 2. Mobile Communication – Schillar – Pearson Education 3. Communication System – Simon Haykin – John Willey

EC – 705 Telecommunication Switching Networks & Protocols CR-3 Introduction Evolution of Telecommunication, Switching system, Classification of switching, Elements of Telecommunication, Telecommunication standard Telephone System PSTN, Modern Telecom System, Telephone Network, Telephone numbering plan, Central battery system, Transmission impairments, two/four wire transmission, subscriber loop design Telecommunication Traffic Telecommunication traffic, Grade of service, Traffic measurement, Mathematical model for telecommunication traffic Switching Systems

Switching, Types of switching, Circuit switching, Message/Packet switching, Functions of switching system, Electronics switching system, Multiplexing, TDM (E1/E2, T1), FDM, Implementation of switching system, Blocking and Non-blocking Switches, Single stage and Multistage switches, Space switching, Time switching, Hybrid switching, Path finding, Complexity, Blocking probability of switch.

Telephone exchange

Stored program controlled exchange, Electronic exchange, Example of modern exchange (C-DOT exchange), availability of parallel exchange

Signaling systems

Types of signaling information, forms of signaling, Channel Associated Signaling (CAS), Common Channel Signaling, CCITT No-7 system, SS 7 Signaling Architecture

Text Book: 1. Telecommunication Switching, Traffic and Networks – J. E. Flood – Pearson LPE 2. Digital Telephony – John C. Bellamy, John Wiley, 3rd Edition, 2000.

Reference Book: 1. Telecommunication Switching Systems and Networks – T. Viswanathanam – PHI Publication 2. Signaling in Telecommunication Networks, - John G. van Bose and Fabrizio U. Devetak, Wiley Interscience, 2nd

Edition, 2007 3. Signaling in Telecommunication Networks, - John G. van Bose and Fabrizio U. Devetak, Wiley Interscience, 2nd

Edition, 2007

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EC – 706 Radar & Television Engg. CR – 3 Basic Television System, Scanning Principle & Composite Video Signal

Principle of Television, Aspect ratio & flicker, Concept of scanning & No. of scanning lines, Interlaced scanning, Video Bandwidth, Video signal & DC component, Blanking pulse, Horizontal & Vertical sync/ pulse, Equalizing pulse

Signal Transmission, Channel Bandwidth & TV Transmitting & Receiving Antenna

Need of vestigial Transmission, Channel Bandwidth for monochrome, transmission, Transmitting (Turnstile) & receiving, Antenna (Yagi), Co-axial & twin wire cable & Balun transformer

Monochrome Television Reciever

Manochrome TV receiver: Block diagram, RF tuner, Video amplifier, Video detector, inter carrier sound detection, Sync separator, AGC, SMPS Power Supply

Colour Television Principle

Luminance & chrominance signals, Channel bandwidth & frequency interleaving, Colour subcarrier and modulation of R-Y, B-Y and signals, colour burst signal, Colour TV receiver block diagram

Principle of radar system

Radar block diagram, its operation & radar range equation, Pulse repeation frequency and range ambiguities

CW & CW-FM RADAR

Doppler Effect, CW radar & block diagram, FM-CW radar principle & CWFM altimeter

MTI & Pulse Doppler Radar

MTI radar block diagram & its operation, delay line canceller, blind speed & its minimization

Tracking Radar

Principle of Tracking radar, sequential lobing, conical scanning & Monopulse tracking radar

Text Books:

1) Introduction to Radar system by M.I. SKOLNIK, TMH

2) Monochrome & colour Television by R. R. GULATI, Wiley

Reference book:

1) Microwave & Radar Engineering by M. KULKARNI, Umesh Publication

2) TV & Video Engg. by A. M. Dhake

EC – 712 Modern Optical Communication CR-3 Optical Communication:

Introduction:

FM Frequency spectrum, Optical Frequencies, Principle of Light Propagation in a fiber, Advantages of optical fiber communication, Materials used for fabrication of optical fiber.

Wave Propagation in optical fiber:

Relation between refractive index and velocity of light, Basic structure and ray diagram of optical path in an optical fiber, Acceptance cone, Numerical aperture, Concept of modes, Qualitative analysis of E-M wave propagation in cylindrical wave guide, Different types of mode in optical fibers, Cut-off condition for guided modes, Boundary conditions, single mode / multi mode fiber, Concept of V number and its importance

Losses in fiber:

Intrinsic / Extrinsic losses, Material or impurity losses, Rayleigh scattering loss, Absorption loss, Bending loss, Leaky modes, Core and cladding loss, Concept of dispersion, Intermodal dispersion, Intramodal dispersion, Wave guide and material dispersion, Minimization of dispersion.

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Optical Sources: Characteristics of good optical source, Principle of operation of LED, Types of LED structure and spectral characteristics, Principle of operation of laser diode, Laser structure, Comparison of LED / Laser Modulation: Intensity modulation using both LED and Laser diode, LED Analog & Digital modulation, Laser Analog and Digital Modulation, Formats of modulation, Pulse code modulation. Optical detectors: Principle of operation of PIN diode, Structure, Current characteristics, Principle of operation of APD, Structure, Current characteristic, Comparison of PIN / APD, Noises at optical receiver, Thermal noise, Short noise, SNR and Noise equivalent power. Fiber link: Optical link budget, Power budget, Rise time budget, Design of components. Concept of WDM, Passive components used in WDM, Types of WDM techniques. Measurements on fibers: Measurement of Numerical Aperture and its related terms, Measurement of fiber attenuation, Optical time domain reflectometer, Loss measurement of each mode scattering losses measurement, Measurement of dispersion losses, Measurement of refractive index cut-off wave length measurement. Connectors and Splices: Various types of connectors used for optical fiber, Splicing of fiber, Electric arch fusion splicing, Mechanical splicing, Steps involved in splicing, Losses in splices and connectors. Text Books: 1. Optical Fiber Communication - G. Kaiser – Tata Mc-Graw Hill 2. Optical Fiber Communication – J. C. Palais – Pearson Education Reference Books: 1. Optical Fibers and Fiber Optic Communication Systems – Subir Kumar Sarkar – S. Chand Publication

EC – 805 Digital Image Processing CR - 3 Introduction:

Historical Background of image processing, fundamental steps in image processing, elements of digital image processing systems. Digital image representation, Different image processing tasks: Image enhancement, Image restoration, Image compression and image analysis.

Digital Image Fundamentals:

Elements of visual perception, A simple image model, sampling and quantization, relationship between pixels, image geometry: translation, rotation, perspective transformation, camera model, camera calibration, stereo imaging.

Image Transforms:

Review of mathematical preliminaries : matrix theory results: Toeplitz and circulant matrices, orthogonal and unitary matrices, positive definiteness and quadratic forms ,block matrices and Kronecker products, separable operators, introduction to image transforms, Two dimensional orthogonal and unitary transforms, properties of unitary transforms, 2-D DFT, Walsh Transforms, Hadamard transform, Discrete Cosine Transform (DCT), Discrete Sine Transform (DST), Haar Transform, Slant Transform, Brief introduction to wavelet transform and multiresolution analysis, Karhunan-Lauve (K-L) Transform, SVD Transform.

Image Enhancement:

Introduction spatial domain methods, frequency domain method, enhancement by point processing : Histogram equalization, spatial filtering : Low pass median, Sharpening filter, High boost filters, derivative filters, enhancement in frequency domain, Homomaorphic filtering.

Colour Image Processing:

RGB, CMY and YIQ colour models conversion from RGB to HIS and HIS to RGB.

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Image Restoration:

Introduction, degradation model, algebraic approach to restoration, inverse filtering, Weiner filter, constrained least squares restoration, restoration in spatial domain.

Image Compression:

Introduction and motivation, fundamental concepts : Data redundancy (coding redundancy, interpixel redundancy and psycho visual redundancy), fidelity criteria, image compression models, elements of information theory, image compression techniques: pixel coding (PCM run-length – coding, bit-plane coding), Predictive coding, Delta modulation, DPCM etc., Transform coding (Zonal coding, Thresh holding, coding with different transforms), Other techniques such as vector quantization and hybrid coding. Image compression standards.

Morphological image processing:

Dilation and erosion, Opening and closing, some basic morphological algorithms.

Image segmentation:

Detection of discontinuities, Edge linking and boundary detection, Thresholding, Region based segmentation.

Text Books:

1. Digital Image Processing - R.C.Gonzalez and R. E. Woods – Prentice Hall

Reference Books:

1. Fundamentals of Digital Image Processing - A. K. Jain – Prentice Hall

2. Digital Image Processing- S.Jayaram, S.Esakkirajan, T.Veerakumar - TMH

EC - 810 Information Theory & Coding CR-3 Source Coding: Introduction to information theory, definitions of self-information and mutual information, conditional self-information, average mutual information and entropy, binary entropy function, FLC & VLC, prefix code and Kraft inequality, source coding theorem, code efficiency, redundancy, Shannon-Fano algorithm, discrete memory less source and Markov source, Huffman coding.

Channel Capacity & Coding: DMC, BSC, BEC & other special channels, channel capacity, channel coding, code rate, channel coding theorem, Information capacity theorem, Shannon limit.

Speech Coding: Characteristics of speech signals, frequency domain speech coding, sub-band coding, adaptive transform coding, Vocoders (channels vocoders, formant vocoders, cepstrum vocoders).

Error Control Coding : Code, codeword, weight of a codeword, generator polynomial, vector, matrices, Galois field, liner code, linear block code, matrix description of linear block code, parity check matrix, systematic code, decoding of a linear block code, standard array, syndrome decoding, error probability after coding, Hadamard code & Hamming code, optimal linear code, maximum distance separable code.

Cyclic codes: Method for generating cyclic codes, burst error correction, Fire code, Golay code, CRC codes, circuit implementation of cyclic codes.

BCH Codes: Primitive element, minimal polynomial, method of generating BCH code, examples of BCH codes, decoding of BCH code, Reed-Solomon code.

Convolutional Codes: Tree & Trellis codes, Convolutional codes, Viterbi decoding,

Text Books:

1. Information Theory, Coding and Cryptography – Ranjan Bose, Tata McGraw Hill

2. Principles of Digital Communication – J. Das, P. K. Chatterjee & S. K. Mullick, New Age Internationals

Reference Books:

1. Elements of Information Theory- T. M. Cover & J. A. Thomas, Wiley-Interscience

2. Digital Communications – J. G. Proakis, McGraw Hill Education

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EC - 811 Communication & Network Security CR-3 Basics Introduction to Security Networks, Characteristics of Networks, Intrusion, Security breaches, Control hijacking attacks: exploits and defenses, Exploitation techniques and fuzzing, Secure system design, access control, and protection Cryptography Use of cryptography in computer security, Cryptography Theory and Related Mathematics, Symmetric Key Encryption Mechanisms, Block Cipher Design Principles, One Way hash Functions & Modes of Operation, Introduction to Public and Private Key Encryption Schemes, Key Management & Key Exchange Mechanisms, Digital Signatures Web Security Basic web security model, User authentication and session management, Web application security, HTTPS: goals and pitfalls, Packet Sniffing, Spoofing Network Security Security problems in network protocols: TCP, DNS, SMTP, and routing, Network defense tools: Firewalls, VPNs, Intrusion Detection, and filters, Unwanted traffic: denial of service attacks, Network security testing, Malware: Computer viruses, Spyware, and key-loggers, bot-nets: attacks and defenses Text Book 1. William Stallings: Cryptography and Network Security. 4th Edition. Prentice-Hall, Englewood Cliffs, 2006. 2. Bruce Schneier: Applied Cryptography, Wiley Student Edition, 2nd Edition, Singapore, 1996. Reference Books 1. Alfred Menezes, Paul van Oorschot, and Scott Vanstone: Handbook of Applied Cryptography. CRC Press, NY. 2. C.Kauffman, R.Perlman and M.Spenser: Network Security, Second Edition, Prentice Hall, Englewood Cliffs. 3. S.Bellovin and W.Chesvick: Internet Security and Firewalls, Second Edition, Addison-Wiley, 1998.

EC – 812 Advance Topics in Communication Systems CR-3 Broad Band Networks Wireless and Wired Broadband Networks. Design of Broadband Networks, Current Broadband Networks: WiMAX based, DSL/ADSL based. Cross Layer Network Design Layered vs. Cross Layer Network Design, Need of Cross Layer Network Design in Wireless Networks, Current Cross Layer Network designs (PHY-MAC, PHY-MAC-Network, PHY-MAC-Transport) Modern Techniques for Network Design Optimal Network Design, Use of Optimization Techniques in Network Design (Power control, Routing, Scheduling etc.), Pricing in Telecommunication, Stability and Controllability of Networks. 2G to 3G 2G vs. 3G, Bandwidth and security requirements of 3G network, Design of 3G Network, Modulation Techniques used in 2G/3G networks, Current 3G Networks. 4G and Beyond Recent Developments on Telecommunications, 4G Network Requirements and Design. Modulation techniques required for 4G Networks, Security issues in 4G Networks Reference Books 1. WCDMA for UMTS: Radio Access for Third Generation Mobile Communications by Harri Holma, Antti Toskala,

J. Wiley. 2. Radio Network Planning and Optimisation for UMTSby Jaana Laiho, Achim Wacker, Tomaes Novosad, J. Wiley. 3. Cross-Layer Resource Allocation in Wireless Communications: Techniques and Models from PHY and MAC

Layer Interaction, by Ana Perez-Neira, Marc Realp Campalans, Elsevier 4. Fundamentals of WiMAX: understanding broadband wireless networking, by Jeffrey G. Andrews, Arunabha

Ghosh, Rias Muhamed, Prentice Hall 5. Broadband network architectures: designing and deploying triple-play services, by Chris Hellberg, Dylan Greene,

Truman Boyes, Prentice Hall

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EC - 815 Modern Digital Communication Techniques CR - 3 Introduction

Review of probability theory and stochastic processes in digital message transmission, Principles of detection theory: Binary and m-ary hypothesis testing. Multi-hypothesis testing; sufficient statistics; Bayes' likelihood ratio test.

Digital Modulation Schemes

Memory-less modulation method, QAM signaling with memory, Continuous-Phase Frequency Shift Keying (CPFSK), Continuous-Phase Modulation (CPM), Power Spectral Density (PSD): digital signal with memory, linearly modulated signal with finite mean; PSD of CFPSK and CPM signals

Optimum Receiver for AWGN Channels

Correlation Receiver, Matched filter receiver, optimal detection, error probability for band limited signal, optimal detection, detection of signaling schemes with memory (maximum likelihood sequence detection, optimum receiver for PCM signals); performance analysis for wire-line and radio communication

Synchronization

Carrier phase estimation (maximum likelihood, phase lock looped, decision-directed loop), symbol time estimation (maximum likelihood, non-decision-directed timing estimation), joint estimation of carrier phase and symbol timing.

Digital Communication through Band-Limited Channels

Band-limited channel; characterization, optimal receiver for band-limited channels with ISI and AWGN; Linear equalization (peak distortion criteria, Mean Square Error (MSE) criteria), decision feedback equalizer (Coefficient optimization – Viterbi), Turbo-decoding

Adaptive Equalization

Zero forcing, LMS, adaptive decision feedback, recursive least square (Kalman), blind equalization (based on maximum likelihood criterion, stochastic gradient, 2nd and higher order signal statistics)

Text Books

1. John G. Proakis and Masoud Salehi: Digital Communication, 5th Edition, McGrahill International, 2008

2. Amos Lapidoth, A Foundation in Digital Communications, Cambridge University Press, 2009

Reference Books

1. Carlson A. and Paul Crilly, Communication Systems, 5th Edition. McGraw Hill, 2009.

2. Simon Haykin, Digital Communications, John Wiley & Sons, 2000

EC - 816 Mobile Communication Engg CR-3 Mobile Communication Principle:

Cellular Concept, System Architecture, Spectrum Allocation, Frequency Reuse, Channel Assignment Strategies, Co-channel Interference & System Capacity, Hand off, Hand off strategies, Practical Hand off consideration, Prioritizing Hand off, Power Control, Near – Far Problem, System capacity, Improvement Techniques : Cell splitting, Sectoring, Micro cell Zone concept.

RF Propagation & Multi-path Model:

Free space propagation model, propagation mechanism, Large Scale fading, Diffraction & Scattering by high – raise structures, shadowing and path loss, Small Scale Fading, Doppler and time-delay spread, coherence Bandwidth and coherence-Time, Types of Small – Scale Fading.

Modulation Techniques:

Overview of QPSK, Offset QPSK, π/4 QPSK, MSK, GMSK, QAM

Equalization and Diversity Techniques :

Fundamentals of Equalization, Adaptive equalizer, concept of diversity, Types of diversity (space, time, frequency, polarization), Rake receiver.

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Spread Spectrum modulation:

Spread Spectrum Modulation and principle, PN sequence and its properties. Direct sequence SS and frequency – hopped SS (DS – SS and FH – SS, TH – SS).

Multiple Access Techniques:

Multiplexing and multiple access, TDD and FDD techniques, Description of FDMA, TDMA, CDMA systems. Description and special features of GSM and IS – 95. Wireless data communication and services. Mobile communication standards, Mobile transmitting and Receiving Antenna Systems.

Text Book

1. Wireless Communication – T.S.Rappaport – Pearson Education

Reference Book

1. Communication System – Simon Haykin – John Willey 2. Wireless & Solar Communication – McGraw Hill 3. Wireless Communication – Andrea Goldsmith – Cambridge Press.

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ELECTRONICS & ELECTRICAL ENGINEERING COURSES

E&E – 501 Control Systems CR-4 Introduction: Basic concepts of Control Systems, Classifications, Servomechanism and Regulators. Depreciation of Physical System: Differential Equation of Physical System, Transfer function, Block Diagram Algebra, Signal flow graph, Mason’s gain formula, application of signal flow graph to control system. Feedback Theory: Feedback and non feedback systems, Reduction of parameter variation by use of feedback, Control of the Effects of Disturbance Signals by use of feedback, Regenerative Feedback. Control Systems & Components: Electrical Systems: A. C. & D.C. Servomotor, A.C. Tachometer, Potentiometers, Sychoros, A.C. and D.C. position control system, hydraulic Systems, Preumatic Systems. Time domain Analysis, Design Specification & Performance Indices: Standard Test Signal: Step, Ramp, Parabolic, Impulse. Time Response of First-order System: Response of the Unit step Input, Response to the Unit Ramp Input. Time Response of second-order System: Response to the Unit Step Input. Time Response specifications. Steady state Error and Design specification, Error constant of 2nd order system, Derivative and Integral control PID control, Design consideration for higher order systems. Performance indices. Optimization using ITAE. Concept of Stability: The concept of stability, necessary conditions for stability, Hurwitz Stability Criterion, Routh Stability Criterion, Application of Routh Stability Criterion to Linear Feedback Systems. Root of Stability: Root Locus Concept, Construction of Root Loci, Construction Rules, Determination of gain from Root Locus. Frequency Domain Analysis : Introduction, Bode diagram, Polar Plots, Lomagnitude versus Phase Plots, Nyquist stability criterion, Stability Analysis, Relative stability, Closed Loop Frequency Response: Constant M-Circles, Nichols Chart, Use of MATLAB for performance studies. Text Books: 1. Control System Engg. I.J.Nagrath & M. Gopal, New Age International (P) Ltd, 2nd Edn, 1996 Referance Books 1. Modern Control Engg, K. Ogata, PHI, 3rd Edn, 1997 2. System Dynamics & Control: Eronini Umez-Eronini, 1999 Edn, PWS Publishing International Thompson

Publishing Company. 3. Control systems Engineering, Norman Nise, Wiley, 3rd Edn.

E&E – 601 Advanced Control Systems CR-3 Introduction to Design: Cascade and feedback compensation, Lead and Lag compensation design using Bodes plot. Cascade Compensation in Frequency Domain: Correlation of time and frequency domain specifications. Lead and Lag compensation design using Bode plot. Comparison of Lead & Lag Compensation. Feedback compensation in Frequency domain. PID and Robust Control System Design: Zigler Nichols rules for Turning PID controllers, Modifications of PID control Scheme, Robust control System Design Examples.

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State-space Analysis : (Linear Continuous time) Concept of state variables and state model, State representation using physical variables, phase variables & canonical variable. Solution of Stage Equations, State Transform Matrix: Properties, Computation by Laplace Transform and using Caley-Hamilton Theorem. Transfer function from state equations. Characteristics equation eigen values & eign vectors. Digitalization using similarly Transform, Vander monde Matrix and Modal matrix. Controllability & Observobility Test: Pole placement using stage feedback for Regulator Type Systems, Full order state observer design, Ackermann’s formula, Effect of observer on classed loop system. Nonlinear Systems: Definitions, examples, Vander Pole’s equations Linearization of nonlinear system, Around equilibrium points, Phase plane method, Singular points, Method of Isoclines, Stability of nonlinear systems, Limit cycles, Phase plane trajectories of simple nonlinear control system. Discrete-Time System: Sampled data digital control system, Uniform periodic sampling, Mathematical description of sampling process, Spectrum analysis, sampling theorem, aliasing, signal reconstruction using zero order hold. Z transform of signals and discrete sequences Z transform theorems Conversion of G (S) to G (Z), Difference equation, Inverse Z-transform methods. The Z transfer function (pulse transfer function) Difference equation Solution, Z & S domain relationship, Impulse response and step transient response, Error constants, steady state error. Text Books : 1. Control System Engg, J. Nagrath & M. Gopal New Age International Publisher, 3rd Edn. Chapters, 10, 11, 12, 13 (Selected portions) 2 Modern Control Engg.By K. Ogata (PHI) , 3rd Edn.

Chapters, 9, 10, 11 & 12. Reference Books : 1. Discrete Time Control System, K. Ogata, PHI, 2nd Edn. 2. Automatic Control System, Kuo, PHI, 7th Edition. 3. Control Systems Engineering Norman Nise, Wiley, 3rd Edn.

E&E – 701 Industrial Automation & Control CR – 3 Sensors, Actuators and Signal conditioning

Sensors: Displacement sensors, Force sensors, Ultrasonic sensors, Temperature sensors, Pressure sensors etc

Actuators: Dc motors, Servo motors, Stepper motors, Piezo electric actuators, Pneumatic actuators etc.

Signal Conditioning: Filtering, Amplifying, Isolation, ADC, DAC, Sensor protection circuits, Signal transmission and noise suppression, Estimation of errors and calibration.

Controller tuning:

PI controller, PD controller, PID controller and tuning methods: Ziegler-Nichols tuning method, Cohen coon tuning method, Implementation of PID controllers (digital and analog).

Automation:

PLC (Programmable logic controllers): Overview, operation and architecture, PLC programming, Application examples.

DCS (Distributed control systems): Overview, Advantages, Functional requirements of Distributed control systems, Communication for distributed control, Application examples

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SCADA (supervisory control and data acquisition): Introduction to SCADA, SCADA system components, architecture and communication, SCADA applications.

Advance control techniques

Feed forward control, Ratio control, Cascade control, Adaptive control, Duplex or split range control, Override control, Internal mode control.

Text books:

1. “Computer-Based Industrial Control”, Krishna Kant, Prentice Hall of India Ltd, 1997.

2. “Chemical Process Control – Theory and Practice”, Stephanopoulous, Prentice Hall of India Ltd, 1984.

3. “Fundamentals of Industrial Instrumentation and Process Control”, William C. Dunn, TataMcGrawHill, 2009.

Reference books:

1. “Modern Automation Systems”, Muhammad Abdelati, University Science Press, 2009.

2. “Modern Control Engineering”, K. Ogata, Prentice Hall of India Ltd. 4th edition

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MECHANICAL ENGINEERING COURSE

ME-101/201 Engineering Mechanics CR-4 1. Solution of Concurrent Forces in a Plane: Free-body diagrams, Composition and resolution of forces, Equilibrium

of concurrent forces in a plane, Methods of projections, Methods of moments. Friction, Static friction, Laws of dry friction, Friction in inclined plane, Ladder friction, Wedge friction.

2. Parallel Forces in a Plane: Two parallel forces acting in the same and opposite directions, General case of parallel forces in a plane, Centre of parallel forces, Centre of gravity, Theorem of Pappus, Centre of composite plane figures, and Curves, Distributed forces in a plane.

3. Moment of Inertia of Plane Figures : M I of plane figures, Parallel Axis Theorem, Perpendicular axis theorem and MI of composite figures.

4. Force analysis of Plane Trusses and Frames: Methods of joints, Method of Sections and Method of members.

5. Principle of Virtual work: Equilibrium of Ideal Systems, Virtual work.

6. Kinematics of Rectilinear Motion: Differential equations of rectilinear Motion, Force proportional to displacement, free vibration, D’ Alembert’s Principle, Momentum and Impulse, work & energy, conservation of Energy, Impact.

7. Kinematics of Curvilinear Motion: Normal and Tangential acceleration, Motion of a Projectile, Work and Energy in Curvilinear Motion.

Text Book 1. Engineering Mechanics - Timoshenko, Young & Rao-TMH

Reference Books 1. Engineering Mechanics(Statics and Dynamics)- Bear and Johnson, TMH 2. Engineering Mechanics ( Statics and Dynamics)- I.H.Shames, PHI 3. Applied Mechanics, I.B.Prasad

ME-301 Engineering Thermodynamics-I CR-3 1. Basic concepts and definitions: Scope of thermodynamics, Macroscopic and microscopic approaches, Definition of

fixed mass (closed system) and control volume (open system), Properties (extensive and intensive), State and representation on a property diagram, process and its representation, cyclic process (or cycle) and its representation, Characteristics of properties (point and path function), Reversible and irreversible processes, Thermal, mechanical and chemical equilibrium, thermodynamic equilibrium, Zeroth law of thermodynamics and temperature. Measurement of temperature and calibration of thermometers, the ideal gas thermometer scale, measurement of pressure, Bourdon pressure gauge and manometers, Gage and absolute pressures.

2. p-V-T relations of pure substances: Definition of pure substance, p-V- surfaces and planes for pure substances, specific volumes of saturated liquid, wet vapor and superheated vapor. Introduction to steam tables with respect to specific volume, pressure and temperature, Ideal gases and their p-V-T relation, real gases and gas mixtures.

3. Energy and mass interactions: Work interaction (definition and calculation), different modes of work-Heat interaction, mass interaction of control volumes.

4. First law of thermodynamics: Formal statement (using cyclic processes), first law for processes of fixed masses (closed systems) and introduction of internal energy as a thermodynamic property, first law for control volumes (open systems) and introduction of enthalpy as a thermodynamic property, definition of specific heats and their use in calculation of internal energy and enthalpy with emphasis on ideal gases, Application of first law to different processes of fixed masses (closed systems) and control volumes, Use of steam tables in finding internal energy and enthalpy of steam at different conditions, Calculations for gases with ideal gas assumptions.

5. Second law of thermodynamics: Kelvin-Planck and Clausius statements of second law, Reversible and irreversible engines and their efficiency, Thermodynamic temperature scale, Clausius inequality, definition of entropy and its evaluation for various processes of pure substances, principle of increase of entropy, Entropy generation.

6. Available energy and availability: Available energy, Useful work, availability for closed systems, flow availability, irreversibility.

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Text Books:

1. Thermodynamics, An engineering Approach,Yunus A Cengel and Michael A Boles, (TMH Publications)

Reference Books:

1. Engineering thermodynamics by Van Wylen and Sontag, John Wiley

2. Engineering thermodynamics by Lynn D Russell and George A Adebiyl (Oxford University Press)

ME-302 Engineering Metallurgy CR-3 1. Introduction of Engineering Materials- Materials Classification, Engineering requirements of materials, Selections

of materials for engineering design, recent development in metallic materials

2. Imperfections in Crystal- Introduction to crystals geometry, Types of crystal structures, Defects in crystals – point defects, line defects (dislocations), surface defects and volume defects, concepts of elastic and plastic deformation of metals, Inelasticity, Hot and cold working

3. Iron-Carbon system- Basics of phase diagram, Gibb’s phase rule, Lever rule, Isomorphous, Eutectic and Peritectic alloy system, Allotropic forms of iron, Iron-carbon equilibrium diagram, Primary and secondary solidifications

4. Heat Treatment- Isothermal decomposition of austenite (TTT curve), transformation of austenite upon continuous cooling, Principles of heat treatment, Annealing, Normalizing, Hardening, Tempering, Martempering, Age hardening, Surface hardening, Case hardening, Hardenability of steel, Jominey end quench test, Recovery, Recrystallization, Grain growth, defects due to heat treatment and their remedies, Basics of heat treatment furnaces

5. Steels- Brief description and principles of steel making processes, classification of steels, distribution of alloying elements, Effect of minor constituents and alloying elements, Structural classes of alloy steels, Ordinary, improved and quality carbon structural steels, alloy structural steels, tool steels, wear-resistant steels, stainless and acid resistant steels, corrosion resistant steels, Magnetic steels

6. Cast Iron- Brief description and principle of iron making process, blast furnace – description and charge calculation, Pig iron, Grey cast iron, White cast iron, Malleable cast iron, SG (spheroidal graphite) iron, Heat treatment of cast iron

7. Non-Ferrous Metals & Alloys- Classification, properties, applications, commercial examples and brief heat treatment of copper, aluminium, nickel, magnesium, zinc, lead, tin & their alloys, Babbits (anti-friction alloys), Spring materials (iron & copper base)

8. Corrosion & its Prevention- Principles and forms of corrosion, Types of corrosion cells, Galvanic corrosion, Factors affecting rate of corrosion, Corrosive agents, Polarization, Passivation, Pitting, Stress corrosion cracking, General methods of corrosion prevention, erosion wear test, coating.

Text Book:

1. Engineering Physical Metallurgy, Y. Lakhtin (Translated by N. Weinstein), University Press of the Pacific (CBS Publishers)

Reference Books:

1. Physical Metallurgy, V. Ragvan, Prentice Hall of India

2. Engineering Metallurgy: Applied Physical Metallurgy, R. A. Higgins, 6th Edition, Viva Books

ME-303 Mechanics of Materials-I CR-4 1. Introduction to concept of stress and strain: Concept of stress: Definition, Reason of stress phenomenon, normal

stress and shear stress; Concept of strain: Types, Stress strain diagram and its features. Stress strain diagram for ductile and brittle materials. Stress and strain in composite rods. Stress and strain in bolt and nut assembly. Stress due to self weight of members. Stress in nuts and bolts. Thermal stress.

2. Two dimensional stress: Two-dimensional stresses, principal stress, principal planes, Mohr’s circle for the stresses.

3. Strain and deformation: Two-dimensional state of strain. Principal strain and principal axes of strain, Mohr’s circle for strain. Strain rosettes, Determination of principal strains from strain measurement, calculation of principal stresses from principal strain.

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4. Shear force and bending moment diagrams: Concept of shear force. Shear force diagram and Bending Moment diagram in simply supported and cantilever beams subject to concentrated load and distributed load. Relationship between shear force and bending moment.

5. Stresses in cylindrical and spherical shells: Stresses in thin cylinders and thin spherical shell under internal pressure. Thick cylinders subjected to internal and external pressures compound cylinders. Membrane stress in shells. Application to cylindrical, spherical and conical shells.

6. Bending stress: Theory of simple bending of initially straight beams. Distribution of normal and shear stresses. Beams of two materials, composite beams, carriage springs.

7. Slope and deflection: Slope and deflection of simply supported beams and cantilevers by double integration method, Macaulay’s method and moment area method.

8. Stress in shafts subject to torsion: Torsion in solid and hollow circular shafts. Torque and Horse Power transmitted by solid and hollow shafts, strength of shafts, combined bending and Torsion, close coiled helical springs.

9. Columns: Definition of a column, types of failure of a column, definition of the critical load of a column, Slenderness ratio of a column. Critical load of a long slender column. Influence of end conditions-effective length. Design of eccentrically loaded column. Inelastic column buckling. Design formulas for columns having intermediate slenderness ratios.

10. Stresses under fluctuating loads: Concept of fatigue. Endurance test.

Text Book:

1. Strength of Materials, S.S. Timoshenko,

Reference Books:

1. Strength of Materials, Lehri & Lehri, Kataria,

2. Mechanics of Material, R.C. Hibler

3. Mechanics of solids, S.H. Crandall & Dahl (TMH)

ME-304 Fluid Mechanics CR-4 1. Introduction: Physical properties of fluids, Types of fluid, Pascal’s law, Hydrostatic Law, Measurement of pressure

by manometers.

2. Hydrostatic forces on surfaces: Total pressure and centre of pressure on horizontal, vertical, inclined and curved surfaces submerged in liquid, Liquids in relative equilibrium, Liquid mass subjected to uniform horizontal and vertical acceleration, Acceleration of a fluid mass along a slope.

3. Buoyancy and Floatation: Centre of buoyancy, Meta center & metacentric height, Analytical method for metacentric height, Stability of floating and submerged bodies, Oscillation of a floating body.

4. Kinematics of flow: Streamlines, path line & streak lines, stream tube, Types of fluid flow, Continuity equation of motion in three-dimensions, Local and convective acceleration, Velocity potential function and stream function, Vorticity and circulation, Vortex flow, Equation of forced vortex flow and free vortex.

5. Dynamics of fluid flow: Euler’s equation of motion, Bernoulli’s equation from Euler’s equation, Practical applications of Bernoulli’s equation—Venturimeter, Orficemeter, Pitot tube. Impulse- momentum equation and applications on a bend pipe.

6. Introduction to Flow Meters: Classification of flow Meters; Mechanical flow Meters- Fixed restiriction variable type flow Meter, Orifice flow Meter, Venturi Tubes, Flow Nozzles, Pitot tube; Quality Meters- Positive displacement Meter, Reciprocating Piston Meters, Oval-gear meter, Helix type flow meter; Interferential flow Meter-Turbine flow Meter variable area flow Meter.

7. Flow through Pipes: Loss of energy in pipes, Darcy Weisbach and Chezy’s formula, Moody’s diagram ,Minor losses in pipes, Hydraulic gradient & total energy line, Power transmission through pipes, Condition for maximum efficiency, Flow through nozzles, Diameter of nozzle for maximum transmission of power

8. Viscous Flow: Flow of viscous fluid through circular pipe and between two parallel plates, Power absorbed in viscous flow, viscous resistance to journal bearings, foot-step bearing & collar bearing, Loss of head due to friction in viscous flow. Introduction to flow in open channels

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Text Book:

1. Fluid Mechanics &Hydraulic Machines- K.L. Kumar, S. Chand

Reference Books:

1. Fluid Mechanics- & Fluid power Engineering by Dr. D.S Kumar

2. Fluid Mechanics and Hydraulic Machines, Modi and Seth

3. Fluid mechanics – F.M.White

ME-401 Engineering Thermodynamics-II CR-3 1. equation, the T-ds relations, isothermal compressibility and volume expansivity, the Joule-Thomson coefficient.

2. Vapor power cycles: The Carnot vapor cycle and its limitations, the Rankine cycle, Means of increasing the Rankine cycle efficiency, the reheat cycle, the regenerative feed heating cycle, the binary vapour cycle, the gas vapour coupled cycles, cogeneration (Back pressure and pass out turbines)

3. Gas power cycles: Bryton cycles. The Bryton cycle with non-isoentropic flow in compressors and turbines, the Bryton cycle with regeneration, reheating and intercooling, ideal jet propulsion cycle.

4. Refrigeration cycles: Reversed Carnot cycle, Reversed Bryton cycle (Gas refrigeration system), the vapor compression cycle, the vapor absorption cycle.

5. Reciprocating air compressors: Introduction (Uses of compressed air), the reciprocating cycle neglecting and considering clearance volume, volumetric efficiency and its effect on compressor performance, Limitations of single stage compression, multistage compression and intercooling, optimum intercooler pressure, performance and design calculations of reciprocating compressors, air motors and Centrifugal Compressor. Basic operation of axial flow compressor, degree of reaction, axial compression characterstics.

Text Books:

1. Thermodynamics, An engineering approach, by Yunus A Cengel and Michael A Boles (TMH publication)

2. Engineering thermodynamics by P K Nag, TMH

Reference Books:

1. Engineering thermodynamics by Van Wylen and Sontag, John Wiley

2. Engineering thermodynamics by Lynn D Russel and George A Adebiyl (Oxford University Press)

ME-402 Manufacturing Technology-I CR-3 1. Foundry Process: Pattern making, pattern materials, allowances, types of pattern, sand casting types, sand cast,

moulding procedure, types of sand, gates and riser (basic design considerations) essential properties of moulding sand, core making, types of cores. Essential qualities, core mixtures and binder sand testing, Mould and core hardness test, fineness test, clay content test, permeability test, moisture content test, sand conditioning. Basic idea about cupolas and other melting furnaces. Melting and pouring procedures for cast Iron, Steel and nonferrous castings. Cleaning of casting and defects in casting, die casting. Precision investment casting, shell moulds, centrifugal casting processes, permanent moulds casting, dies casting.

2. Metal Working Process: Hot and cold working of Metals: Basic Principles of hot and cold working of metals.

Rolling: Types of Rolling, Rolling equipments hot and cold rolling, General deformation pattern, Pressure and forces in rolling.

Forgings: Smith forging, Drop forging, press forging & Machine forging, Description of Presses and hammers, forging defects. Forging die design.

Extrusion: Direct, Indirect and impact extrusion and their applications, Extrusion defects.

Drawing: Wire and rod drawing, Tube drawing, Process variables in drawing process.

3. Powder Metallurgy Process: Preparation of powder, properties of powder, fabrication methods & procedure, applications, advantages.

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4. Fabrication Processes: Classification, types of welding joints, Gas welding principles, types of flames, equipment, techniques of gas cutting. Electric Arc Welding: Principles of electric welding equipments and electrodes (in brief), principles of Inert Gas Welding. TIG, MIG, sub-merged arc welding. Atomic hydrogen welding, plasma are welding. Resistance Welding: Principle of forge welding, spot-seam, Projection, Upset-butt welding, flash welding. Thermit -welding, electro-slag welding, friction welding Brazing, Soldering.

Text Book:

1. Manufacturing technology: P.N.Rao (Tata Mc-Graw Hill, Publication. Co.Ltd.)

Reference Books:

1. Principle of Metal Casting: Hein and Rosenthal.

2. Manufacturing Science: A. Ghosh & A.K.Mallick (EWP)

3. Principle of Manufacturing Materials and Processes: J.S. Cambell (TMH)

4. Welding & Welding Technology - R.Little (TMH)

ME-403 Mechanics of Materials –II CR-3 1. Strain Energy: Strain Energy, Resilience, Strain Energy due to Axial load, Bending Moment and Twisting Moment. 2. Principle of Virtual Work: Principle of Virtual Work, Castigliano’s theorem, Maxwell’s theorem of Reciprocal

Relations. Unit load and Unit couple method for determining slope and deflection of beams. 3. Fixed and continuous beams: Fixed and continuous beams. 4. Theories of Failure: Maximum principal stress theory. Maximum Shearing stress Theory, Maximum Strain Theory.

Total strain energy Theory. Maximum Distortion Energy Theory. Octahedral Shearing Stress Theory, Graphical representation of theories of Failure.

5. Curved Beams: Bending of Beams with small initial curvature, strain energy of beam with small initial Curvature, Deflection of beam with small initial curvature, curved beam with large initial curvature.

6. Shear Centre: Shear centre for sections symmetrical about both axes, shear centre for section symmetrical about one axis.

7. Unsymmetrical Bending: Unsymmetrical Bending stress at any point in cross-section, sign convention, Direction of neutral axis, Determining stress and deflection in Beams with unsymmetrical bending.

8. Engineering Stress Analysis: Two-dimensional photo elastic method of Stress analysis, Stress optic law, Light and dark field in polariscope. Iso-chromatic fringe pattern: stress determination by Brittle Coating method.

9. Basic concepts in theory of Elasticity: Basic concepts in theory of Elasticity (Theoretical approach in Cartesian co-ordinates only), stress at a point. Notation for stress, sign convention for stress. Differential equations of equilibrium, strain components, compatibility equations.

Text Books: 1. Advanced mechanics of materials, A. P Boresi.; R.J Schimdt.; Wiley Reference Books: 1. Strength of Materials: G.H. Ryder. 2. Strength of Materials: Dr Sadhu Singh

3. Strength of materials, Beer and Johnson TMGH.

ME-404 Machine Dynamics-I CR-4 1. Simple Mechanism: Classification of links and pairs, kinematics chains, degrees of freedom, Grashof’s law,

Kutzbach criterion, Grubler’s criterion for plane mechanism. Four bar mechanism and its inversions. Single slider crank chain and its inversions. Double slider crank chain and its inversion.

2. Velocity in Mechanism: Velocity of a point on a link by instantaneous center method, Numbers and types of instantaneous centers in a mechanism. Location of instaneaous centers. Kennedy’s theorem, Velocity of a point in a link by relative velocity methods. Velocities of four-bar and slider crank mechanism.

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3. Acceleration in Mechanism: Acceleration of point on a link, Acceleration diagram of a link, Acceleration in the slider crank and four bar mechanism .Klein’s construction, Analytical method of finding acceleration of a piston and connecting rod, Coriolis’ components of acceleration.

4. Kinetics: Equivalent dynamical system to replace a rigid body, two mass systems, Hook’s joint, Davis and Ackerman Steering gears. Compound pendulum, Bifilar and Trifler suspension

5. Friction: Friction of a square threaded screw and V-threads, Friction of journal, pivot and collar bearings, single plate, multiplate and conical clutches (Centrifugal clutch).

6. Belt and Rope Drive: Velocity ratio, Effect of belt thickness and slip on velocity ratio, Length of belt, Ratio of driving tensions, Power transmitted by belt ,Centrifugal tension .Maximum power transmitted by belts, Creep and initial tension, V-belt. Ratio of tensions in rope drive.

7. Brakes and Dynamometer: Block brakes, Band Brakes, Band and Block Brakes, Absorption and Transmission Dynamometers, Pony Brakes, Rope Brake, Belt Transmission and torsional Dynamometer.

8. Kinematics of Cam: Types of cams and followers, Displacement velocity and acceleration-time curves for uniform velocity, uniform acceleration, simple harmonic motion and cycloid motion, Graphical construction of cam profiles for different types of followers, Cams with specified contours.

Text Book: 1. Theory of Machines by S. Ratan, TMH Reference Book: 1. Theory of Machines by Shigley J, TMH 2. Machines and Mechanisms: Applied Kinematics Analysis by David H Myszka, PHI 3. Theory of Mechanism and machines by Sharma & Purohit, PHI

ME-501 Heat Transfer CR-4 1. Introduction: Scope of the subject, the three modes of heat transfer-conduction, convection and radiation. Fourier

conduction equation, Newton’s law of cooling and Stefan- Boltzman equation for black body radiation.

2. Conduction

Mechanism of conduction: Derivation of the general 3-dimensional heat conduction equation with variable thermal conductivity and internal heat generation in Cartesian coordinates. Simplification of this equation for steady state conduction for 1-, 2- and 3- dimensional conduction with and without internal heat generation. Transformation of the conduction equation into polar cylindrical and polar spherical coordinates.

Different types of boundary conditions encountered in heat conduction. Boundary conditions of the first, second and third kinds. Homogeneous and non-homogeneous boundary conditions.

Solution of the one dimensional steady state heat conduction equation with constant thermal conductivity and without heat generation in Cartesian, Cylindrical and Spherical coordinates. Extension of the solution to composite walls/cylinders/spheres by electrical analogy. Effect of variable thermal conductivity.

Critical insulation, First and Extended surfaces. (Only longitudinal fins with constant cross sectional area be considered.

Solution of two dimensional steady heat conduction equations without heat generation and with constant thermal conductivity by variable separation technique.

Introduction to numerical solution of the heat conduction equation.

3. Convection

Mechanism of convection and basic concepts: Dimensional analysis for forced and free convection.

Conservation equations for mass, momentum and energy for two dimensional steady state flow in Cartesian, cylindrical and spherical coordinates. Non dimensionalization of the conservatation equations.

Hydrodynamic and thermal boundary layer concepts, Boundary layer equations, momentum integral and energy integral equations for boundary layer flow over a flat plate. Solution of the integral equations to derive expressions for drag and heat transfer coefficients. Average values of drag and heat transfer coefficients.

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Experimental correlations for forced and free convection for various geometries.

4. Heat transfer with phase change: Condensation: Drop wise and film wise condensation. Analysis of film wise condensation on vertical plates and cylinders. Extension of the solution to horizontal tubes and tube banks.

5. Radiant heat transfer: Radiation properties, emissive power and emissivity, Kirchoff’s identity. Planck’s relation for monochromatic emissive power of a black body, derivation of Stefan-Boltzman law and Wein’s displacement law from Planck’s relation, Radiation shape factor, Relation for shape factor and shape factor algebra. Heat exchange between black bodies through non-absorbing medium. Gray bodies and real bodies. Heat exchange between gray bodies. Radiation and irradiation. Electrical analogy and radiation network for a 2-body and 3-body radiations exchange in non-absorbing medium, radiation shields.

6. Heat exchangers: Types of heat exchangers and heat exchanger configurations. The overall heat transfer coefficient and fouling factors. LMTD and effectiveness-NTU analysis of heat exchangers. Heat exchanger design considerations.

Text Books:

1. Heat transfer by P K Nag, TMH

2. Basic heat transfer by Necati Ozicik

3. Engineering Heat Transfer by Incropera.

Reference Books:

1. Heat transfer by J P Holman, TMH

2. Heat and Mass Transfer by domkundwar & Arora.

ME-502 Manufacturing Technology-II CR-3 1. Conventional Machine tools & Machining Processes: Principles, machine tools description with techniques used

cutting time calculation of conventional machining processes like Turning (Particular ref. to taper turning & thread cutting) shaping & planning (quick return mechanism) milling (up milling & down milling, milling cutters, indexing). Drilling, reaming and boring grinding (surface grinding, centreless grinding, grinding wheel specification, wheel truing and dressing) Finishing Processes: Lapping, honing super finishing.

2. Production Machine Tools: Turret & Capstan lathe, single spindles, multi spindle automatic, gear shaper, Hobbing machine, copying lathes & Transfer machines.

3. Jigs and Fixtures: Principles of design and construction. Principles of Location and Clamping. Design of simple Jigs for drilling operations, simple fixtures for milling and broaching operation.

4. Desing of forging tools: Design of forging tools, Drop forging dies and up-setting dies, types of forging ram defects.

5. Process Planning: Selection of Processes machines and tools and design of sequence of operation. Time and cost estimation.

Text Books: 1. Manufacturing Technology P.N.Rao (TMH) Part - II Reference Books: 1. Manufacturing Science: A. Ghosh & A.K. Mallick (EWP) 2. Text Book of Production Engineering: P.C. Sharma 3. Modern Machining process – P.C. Pandey, H.S. Shan (TMH)

ME-503 Design of Machine Elements- I CR-3 *Standard Design Data Books are allowed during examinations

1. Introduction to Machine Design: Basic requirement for machine elements and machines, design procedure, general design process, manufacturing considerations in design, DFX

2. Design of fastening elements: Riveted and welded joints for pressure vessels and structural joints, Design of bolted joints, Cotter and knuckle joints.

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3. Design of power transmission elements: Design of shafts, keys and couplings. Design of belt and rope drives, pulleys and chains, Design of transmission components, Clutches (friction and Centrifugal type), straight and helical spur gear, bevel gears and worm and worm wheel, concept of Herringbone gear.

4. Design of levers & brackets: Hand lever, foot lever, bell crank lever, rocker arm, wall brackets.

5. Design of power transmission screws: Screws Jack and C. Clamp.

6. Design of springs: Closed coil helical springs of circular section, spiral spring, Leaf springs.

Text Books: 1. Design of Machine Elements - VB Bhandari (TMH) 2. Mechanical Design - of Machines Maleev/Hartman (CBS) Reference Books: 1. Design data hand book: S.Md. Jalludeen (Anuradha) 2. Machines Design Data Book - P.S.G. College of Technology, Coimbatore. 3. Mechanical Engineering Design - Shigley J E, Mischiee C. R.; TMH

ME-504 Machine Dynamics-II CR-4 1. Gyroscope: Gyroscopic couple of plane disc. Analysis of the forces on bearings due to the forced processing of

rotating disc mounted on shafts. Gyroscopic effects on a two wheel and four wheel vehicle. Gyroscopic stabilization with reference to practical application.

2. Governors: Centrifugal Governor: Watt and Porter Governors, Spring loaded Governor-Hartnell Governor,Sensitiveness,Stability,Isochronous,Hunting,Governor Effort and Power, curves of Controlling force, Effects of frictions.

3. Dynamics of Machines: Inertia force, Inertia Torque. Inertia forces in the Reciprocating Engines, Turning Moment diagrams, Flywheel.

4. Balancing: Balancing of revolving masses in the same planes and different planes. Partial balance of Locomotives. Variation of tractive efforts, swaying couple. Primary and Secondary balance of multicylinder engines.

5. Free Vibration: Free vibration of single degree system without and with damping, Equilibrium Method, Energy method, stiffness of spring elements, viscous damping, Logarithmic decrement.

6. Forced Vibration: Equation of motion, Dynamic amplifier, Vibration isolation and transmissibility, transverse vibration of shafts carrying a point load ,uniformly distributed load and several loads. Dunkerly’s method and energy method, whirling of shafts, Two rotor systems, three rotor systems, geared systems.

7. Toothed Gears: Theory of shape and action of tooth properties and methods of generation of standard tooth profiles, (Standard proportions), Interference and under cutting, methods of elimination of interference, minimum number of teeth to avoid interference.

8. Gear Trains: Simple, compound, Riveted and Epicyclic Gear Trains, Calculation of velocity ratio. Text Books: Theory of Machines by S.Ratan, TMH Reference Books: 1. Theory of Machines by Shigley J, TMH 2. Mechanism and Machine Theory by J.S.Rao and R.V.Dukkipati, New Age 3. Theory of Mechanism and machines by Sharma & Purohit, PHI

ME-505 Mechanical Measurements & Control CR-3 1. Introduction to Generalized Mechanical Measurement System: The significance of mechanical measurements.

2. Basic detector transducer elements: Electrical transducer, Sliding Contact devices, Variable- Inductance transducer elements. The differential transformer, Variable- reluctance transducers. Capacitive transducers. The piezoelectric effect, photo-electric transducers, Electronic Transducer element.

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3. Intermediate Modifying System: Electrical Intermediate modifying devices, input circuitry, the simple current sensitive circuit, the ballast circuit, the voltage-dividing potentiometer circuit. The voltage balancing potentiometer circuit. Resistance bridges.

4. Terminating Devices and Methods: Introduction, Meter Indicators. The vacuum tube voltmeter, CRO, Electronic switch, CRO recording techniques, Oscillographs

5. Measurement of Strain: The Electrical resistance strain gauge. The metallic resistance strain gage, Selection and installation factors for metallic strain gages, Circuitry, Metallic strain gage , The strain gage ballast circuit, the strain gage bridge circuit, Temperature compensation.

6. Measurement of Pressure: Pressure measurement systems, Pressure measuring transducers, Gravitations transducers, Elastic transducers, Elastic diaphragms, Secondary transducers used with diaphragms, strain gage pressure cells, Measurement of high pressure, Measurement of low pressures. Dynamic characteristic of pressure measuring systems. Calibration method.

7. Measurement of Fluid Flow: Flow characteristics obstruction meters, Obstruction meter for compressible fluids. The variable area -meter, calibration of flow measuring devices.

8. Temperature Measurement: Use of bimetals pressure thermometers. Thermocouples, Pyrometer, calibration of temperature measuring devices.

9. Vibration and Shock: Measurement and test methods- Vibrometers and accelerometers, Elementary vibrometers and vibration defectors. Elementary accelerometers, The seismic Instrument

10. Control System: Description of open and closed loop control systems and their block diagrams. Use of block diagrams and signal flow graph to find the overall transfer function.

1st and 2nd orderd systems and their response to step and sinusoidal input, Error analysis, Static and dynamic error coefficients. Routh’s stability criterion, The Root-Locus method, Bode plot and Nyquist plot, Gain margin and phase margin.

Text Books:

1. Mechanical Measurements: T.G. Beckwith & N. Lewis Buck Oxford and IBH Publishing Co

2. Control System Engineering Nagrath & Gopal, wiley

3. Automatic control System By K. Ogatta.

Reference Books:

1. A course in mechanical measurement and instrumentation: A K Sawhney, P Sawhney, DR Co

ME-506 Metrology, Quality Assurance & Reliability CR-3 1. Metrology & Needs of inspection: Needs of inspection, Principle and methods of measurements, Sources of error,

precision and accuracy. Standards of measurement: - Line, End and Wave length standards.

2. Limits, fits and tolerances: - Interchangeability, selective assembly, limits, tolerances and fits (Indian standard), Fundamental deviation, Hole & Shaft basis systems, limit gauges, Taylor’s principles of Designs of Limit gauges.

3. Comparators: Needs of comparator, Basic principle, use, classification and characteristics of comparators, Mechanical, electrical & electronic comparator, pneumatic comparator and its sensitivity.

4. Angle measurements: Sine bar: - its use, limitations, errors. Slip gauges and its use.

Auto-collimator: - principle, construction and application. Measurement of taper angle.

5. Inspection of screw thread elements: Screw thread terminology and errors in thread elements, Measurement of effective diameter using 2- wire and 3- wire methods of measurement.

6. Gear metrology: Methods of measurement of gear tooth thickness, Parkinson gear tester.

Alignment tests on lathe, shaper, milling & drilling machine.

7. Geometric shapes: Measurement of straightness, flatness, parallelism, squareness and roundness (circularity) testing. Plotting of polar graphs.

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8. Surface texture: - Elements of surface texture, order of surface irregularity, conventional methods for designing surface finish, methods of measurement of surface finish.

9. Statistical quality control: Frequency distribution, process capability, control charts, X charts, R Charts, P-charts, C- chart. Acceptance sampling, O.C. curves, sampling plan & acceptability.

10. Reliability: Definitions & field data analysis, Hazard models: - constant hazard & linearly increasing hazard models, Bath-Tub Curve, System reliability and reliability improvement.

Text Books:

1. Engineering Metrology: R K Jain

Reference Books:

1. Reliability Engineering - L.S.Srinath, East West Press.

2. Statistical Quality Control: M Mahajan

ME-601 Internal Combustion Engines and Gas Turbines CR-3 1. Introductions: Classification of I.C. Engines. Fundamental difference between SI and CI engines, Comparison of two

stroke and four stroke engines. Otto, Diesel and Dual cycle. Valve timing diagram, Properties and rating of IC engine, fuels, Additives and non-petroleum fuels.

2. Carburetion and Fuel injection: Function of carburetors, Description and principle of simple carburetor and its drawback, petrol injections. Requirements of diesel injections system. Types of injection systems, Fuel pumps and nozzles, types of fuel injections, Spray formation, penetration and direction.

3. Combustion of Fuels: Stages of SI engine combustion, Effect of engine variables on ignition lag and flame propagation, fuel knock, control of knock. SI engine combustion chamber stage of diesel combustion, variables affecting delay period. Diesel knock and methods of control. CI engine combustion chambers.

4. Supercharging: Thermodynamic cycle with supercharging and its effect. Efficiency of supercharging engines Methods of supercharging and scavenging of two stoke engines.

5. Test and Performance: Fuel air and power measurement methods. Performance of SI and CI engines, Characteristic curves, Governing of speed.

6. Engine Emission and Control: Engine Emissions and its harmful effects. Gasoline and Diesel emission. Methods of measuring pollutants controlling of engine emission.

7. Cooling Lubrication and ignition systems: (a) Air cooling and water cooling systems effects of cooling on power output and efficiency.(b) Properties of lubricants additives lubricating systems.(c) Battery, Magnet ignition systems ignition timing

8. Gas Turbines: Gas turbine Shaft Power cycle: Introduction open cycle single shaft and twin shaft arrangements. Multi-spool arrangement ideal cycle. Methods of accounting component losses. Comparative performance, of practical cycles. GOGAS cycles and co-generations schemes. Closed cycle gas turbines.

9. Gas Turbine cycles for Aircraft Propulsion: Criteria of performance, Intake and propelling nozzle efficiencies, simple turbojet cycle, turbofan and turboprop engine.

Text Books:

1. IC Engines: Mathur and Sharma, Dhanpat Rai & Sons, Gas Turbines: V Ganeshan, TMGH

Reference:

1. IC Engines - S.P. Sen, Khanna Publishers,

2. IC Engines - Gill and Smith, OXFORD & IBH

3. An introduction to energy Conversion (Vol.II) Kadambi & Prasad, Wiley Eastern.

4. Gas Turbine Theory - Cohen, Rogers and Saravanamutto

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ME-602 Metal Cutting and Tool Design CR-4 1. Basic shape of cutting tools: The Wedge, Function of different angles of cutting tools, Systems of description of tool

geometry (Tool in hand system, ASA, ORS), Introduction to NRS Systems, Conversion of angles, Tool Materials & chronological development, characteristics & applications of tool materials.

2. Mechanism of chip formation: Mechanism of chip formation in machining, Classification of chips, Geometry & characteristics of chip forms, Factors involved in chip formation, Orthogonal cutting and oblique cutting. Shear plane in flat chips, Restricted cutting & non- uniform chips, Chip formation in drilling and milling process, Dynamic Shearing strain in chip formation, Criticism of single shear plane theory, Effect of cutting variables on chip reduction co-efficient, BUE formation.

3. Mechanics of Metal cutting: Needs & Purposes of determining cutting forces, Force system during turning & their significances, Merchant’s circle diagram & its use, Advantages & limitations of MCD, Velocity relationship and Kronenberg relationship, Stress in conventional shear plane, Energy of cutting process, Ernst-Merchant angle relationship, Lee-shaffer’s relationship, Forces in drilling and milling process.

4. Dynamometers for measuring cutting forces: Design requirements of dynamometer, Dynamics of dynamometry, Dynamometer for turning process, Drill dynamometer.

5. Thermodynamics of chip formation: Shear plane temperature, Experimental determination of chip-tool interface temperature, Coolants-Theory of cutting fluid action at chip- tool interface, Techniques for application of cutting fluids.

6. Mechanism of tool failure : Failure of cutting tools, Mechanism & pattern of cutting tool wear, Form stability, Criteria of wear, Flank and crater wear, Tool life-definition in R&D & shop floor, Taylor’s tool life equation & modified equation, Effect of variables on tool life, concept, definition & criteria of judgement of Machinability, Factors affecting mach inability, Vibration& chatter in machining. Economics of Machining, Gilbert’s models.

7. Tool design: Tool geometry & definition of principles of tool angles of single point cutting tools, Design of single point cutting tool, Design of broach, Form tools, Boring tools, Reamers, Twist drill and Milling cutters.

8. Press tool operation and design: Press operations, Punching, Blanking & Deep Drawing. Working equipment, Types of dies, Principle of metal cutting, Cutting forces, Blanking die and piercing die design, Drawing and bending dies, Design procedure for progressive dies.

Text Books:

1. Metal Cutting Theory and Practice: A. Bhattacharyya, New central book.

2. A. Text. Book of Production Engg: P.C. Sharma, S. Chand

Reference Books:

1. Fundamentals of Metal Cutting and M/C tools: Juneja, Sekhon, & Seth, New age

2. Metal cutting: M.C.Shaw, Oxford

3. Fundamentals of machining & machine tools: Boothroy & Knight, Taylor & francis

4. Tool design: Donaldson

ME-603 Design of Machine Elements–II CR-3 1. Theories of failure: Maximum principal stress theory, Maximum shear stress theory, maximum strain energy theory, Maximum

distortion energy theory. Application to practical problems.

2. Dynamic stresses and stress concentration: Concept of stress concentration, Notch sensitivity, Design for finite life of components, Design of machine member based on fatigue consideration (Soderberg, Goodman and Modified Goodman criteria)

3. Design of IC Engine Components: Cylinder Liners, Piston, Connecting Rod, Flywheel, Crankshaft and Valve.

4. Lubrication: Properties of Lubricant - Viscosity and oiliness. Theory of film, Lubricant and its application to the design of journal Bearings. Design of ball and roller bearings, Dynamic and static load; Rating, selection of ball and roller bearings.

5. Strategies in design of machine elements: Static consideration, economic consideration.

Text Books:

1. Design of Machine Elements: VB Bhandari (TMH)

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2. Design of Machine elements: S. Md Jalaludeen (Anuradha Publication)

3. Design Data book by Jallaludin

Reference Books:

1. Machine Design - Shigley

2. Machine Design - Maleev & Hartman (CBS)

3. Machine Design - Sharma & Aggarwal (Katson Publishing House)

4. Machine Design data book - P.S.G.College of Technology, Coimbatore.

ME-604 Fluid Dynamics and Hydraulic Machines CR-4 1. Boundary Layer Theory: Boundary layer growth over a flat plate, Boundary layer thickness, displacement thickness,

Momentum thickness, and energy thickness, Laminar and Turbulent boundary layer, Momentum integral equation. Separation of boundary layer.

2. Drag and Lift: Drag and Lift coefficient, pressure drag and friction drag on stream lined and bluff bodies, Drag over flat plate, Local and average skin friction drag coefficient. Profile drag, Drag characteristics of sphere, cylinder and disc and drag function, Circulation, Lift and Magnus effect.

3. Dimensional Analysis and Model study: Dimensional homogeneity, dimensional analysis, Raleigh’s method and Buckingham theorem. Superfluous and Omitted Variables, Similarity laws and model studies, Distorted models

4. Forces on vanes: Dynamic pressure on fixed and moving flat plates and curved vanes, work done and efficiency.

5. Turbines: Classification, Impulse and reaction type, Outward and inward flow, mixed and axial flow turbines, study of Pelton, Francis and Kaplan turbines Blade angle, velocity triangle efficiency of Pelton, Francis, Kaplan turbines. Specific speed, and unit quantities, performance of turbines, Governing of turbines, Draft tubes, Cavitations in reaction turbines, Principles of similarity applied to turbines.

6. Centrifugal Pump :Principles, classifications, Blade angle, velocity triangle, efficiency of centrifugal pump, specific speed, Characteristics, curves, Multistage pumps- pumps in sires and parallel, Principle of similarity applied to pumps , cavitations in pumps, NPSH.

7. Reciprocating pump:Principle of working, slip, work done effect of acceleration and frictional resistance, separation, air vessels.

8. Miscellaneous Machine: Rotary and air injection pumps, Hydraulic ram, Hydraulic accumulator, intensifier, crane, Lift, fluid drives, its specific features and applications.

Text Books:

1. Fluid Mechanics: Modi and Seth

Reference Books:

1. Hydraulic Machines- By: Dr.J.Lal, Metropolitan Book co. Pvt .Ltd, New Delhi.

2. Hydraulic Machines- R K Bansal

3. Fluid Mechanics: - A.K.Mohanty.

ME-605 Advance Manufacturing Processes CR-3 1. Non-conventional Machining: Material removal processes, Principle and application of AJM, USM, ECM, EDM,

PAM, LBM, and EBM

2. Automation and CNC: Reasons for automation, arguments for and against automation, product cycle and CAD/CAM, Types of production, functions in manufacturing, organization & information, processing in manufacturing, production concepts and mathematical models, automation strategies.

3. CNC: NC co-ordinate systems and machine motions, types of NC systems, components of NC systems, machine tool application, economics of NC, NC part programming, APT language, computer automated part programming, DNC, CNC and adaptive control.

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4. Micro machining Processes: Introduction to Ultrasonic micromachining, Abrasive jet micromachining, electrochemical micromachining. Diamond turn machining.

5. Metal Forming processes: Hydro forming, Electromagnetic forming and hydroelectric forming.

6. Micro Fabrication processes: Electron beam welding, Laser beam welding

Text Books:

1. Manufacturing Science: A. Ghosh & A.K. Mallik

2. Automation, Production systems and CIM: M.P. Grover

References:

1. Manufacturing Technology, Part –II, P.N. Rao (TMH)

2. Introduction to micromaching, V.K. Jain, Narosa Publishing house

3. Modern Machining Process-P.C. Pandey, H.S. Shan (TMH)

4. Production Technology-HMT

ME-701 Refrigeration and Air Conditioning CR-3 1. Introduction to Refrigeration: Reversed Carnot Cycle, Vapor compression cycle, Unit of Refrigerants, Coefficient

of performance.

2. Refrigerants: Classification of Refrigerants: Halocarbon compounds, Azeotropes, Hydrocarbons, Inorganic compounds, Properties of Refrigerants, Comparison of common refrigerants, uses of Important Refrigerants.

3. Vapor Compression systems: Actual vapor compression cycle, T-s and p-h diagram simple saturation cycle, Superheated and sub-cooled cycle, Effect of suction pressure and discharge pressure on performance.

4. Multistage compression and multi-evaporator systems: Different arrangements of compressors and intercooling, multistage compression with intercooling, Multi-evaporation system, dual compression system.

5. Vapour Absorption system: Simple Ammonia Absorption system: Improved vapour absorption system, Electrolux system, Comparison of vapor absorption system with vapour compression system.

6. Psychometrics: Properties of air-vapor mixtures, Psychometric chart, Law of air-water vapour mixture, Enthalpy of mixture simple heating and cooling. Humidification, Dehumidification Mixture of air streams.

7. Requirements of comfort Air conditioning: Oxygen supply: Heat removal, Moisture removal, Air-motion Purity of air, Thermodynamics of human body, Comfort and comfort chart, Effective temperature, Factors governing optimum effective temperature.

8. Air conditioning systems: Process in Air conditioning, Summer Air conditioning, Winter Air conditioning and Year round Air conditioning, Cooling load calculations.

9. Heat Pumps: Introduction, heat pump circuit, working fluid, different types of heat pumps. Industrial applications, Heat sources & heat circuit.

Text Books: 1. Refrigeration and Air-Conditioning: R.C. Arora PHI. 2. Refrigeration and Air-Conditioning - C.P.Arora, THM. 3. A course in Refrigeration & Air conditioning - S.C.Arora & Domkundwar, Dhanpat Rai and Sons. Reference Books: 1. Refrigeration and air conditioning - P.L. Ballaney, Khanna Publishers. 2. Refrigeration and air conditioning - Stpeker and Jones. 3. Refrigeration and air conditioning - Manohar Prasad, Wiley - Eastern. 4. Refrigeration and air conditioning - Khurmi & Gupta.

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ME-702 Operations Research CR-3 1. Assignment and Routing Problem: Mathematical formulation of assignment problem and its algorithm, unbalanced

assignment problem, Routing problems, Traveling Salesman problem.

2. Transportation problem: The Transportation table. Loops in transportation Table Initial basic feasible solutions, Test for optimality, Transportation algorithm, Degeneracy in transportation problem, unbalanced T.P.

3. Linear Programming Problem: Formulations of the LPP, General formulation, canonical and standard forms. Graphical solution of problems, Applications, Advantages & Limitations.

4. Simplex Method: Fundamental properties of solution to L.P.P. Computational procedure. Artificial variable technique, problem of Degeneracy.

5. Duality in Linear Programming: Concept of Dualities fundamental properties of duality. Fundamental theorem of Duality and simplex Method, Dual Simplex Method, Dual Simplex algorithm.

6. Post Optimality Analysis: Sensitivities Analysis, Discrete changes in cost vector and requirement vector.

7. Integer Programming Problem: All and Mixed I.P.P, Gomory Cutting plane Method, Branch and Bound Technique.

8. Network Analysis: CPM, PERT, Fulkersons rule, Determination of critical path, Crashing & updating.

9. Game Theory: Two person zero sum games. The Maximin and Minimax principle, Mixed strategies, Graphical solutions of (2 x n) and (m x 2) games, Dominance property.

10. Job Sequencing & Queuing Theory: Principal assumptions, Processing ‘n’ jobs through 2 machines, ‘n’ jobs through 3 machines, 2 jobs through ‘m’ machines and ‘n’ jobs through ‘m’ machines. Probability distributions in queueing systems.

Text Books: 1. Operations Research-S.D. Sharma, Kedarnath publication Reference Books: 1. Operations Research-Kanti Swarup 2. Operations Research-Hira & Gupta, S. Chand

ME-703 Automobile Engineering CR-3 1. Introduction: Main units of automobile chassis and body, different systems of the automobile, description of the

main parts of the engine, motor vehicle act. 2. Suspension System: Function, types, leaf spring suspension system, coil spring suspension system, torsion bar,

telescopic type shock absorber 3. Transmission System: clutch : single plate, multi plate, centrifugal clutch, their functions; gear box: Sliding mesh,

constant mesh and synchromesh gearbox, design of 3 speed and 4 speed gear box, over drive, torque converter, semi and fully automatic transmission.; Hooks Joint: Hooks Joint, propeller, shaft, transmission system for two wheel and four wheel drives, Hotchkiss and torque tube drives; Differential and rear axle: differential, rear axles, types of rear axles, semi floating, three quarter floating and full floating types.

4. Braking System: Hydraulic braking system, braking of vehicles when applied to rear, front and ill four wheels, theory of internal shoe brake, design of brake lining and brake drum different arrangement of brake shoes, servo and power brakes.

5. Front wheel Geometry and Steering System: Camber, castor, Kingpin inclination, toe-in, center point steering condition for true rolling components of steering mechanism. power steering system

6. Electrical systems of an automobile: Starting system, starting drive, generation system, ignition system other electrical system.

7. Power for propulsion: Types of resistance, traction, tractive effort, power required for propulsion for vehicle. Text Books: 1. Automobile Engineering – R B Gupta Reference Books: 1. Automobile Engineering - G.B.S.Narang. 2. Automobile Mechanics - J.Heitner. 3. Automobile Engineering - K.M.Gupta. Vol I & II (Umesh Publications)

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ME-801 Robotics and Flexible Manufacturing System CR-3 1. Introduction: Definitions, robotic system, symbols, description of position and orientation, transformation of

coordinate frames, joint variable. D H Algorithm 2. Kinematics of manipulators: Direct and inverse kinematics, Jacobeans, velocity and static forces, dynamics of

manipulators using Lagrange – Euler techniques. 3. Position control and force control of manipulator: Trajectory generation and manipulator mechanism, hybrid

control 4. Sensor: Sensor contact, non contact and process sensors. Interfaces 5. The robot programming: The robot programming, Language classification, sample programming 5. Group Technology & FMS: Benefits of group technology Flexible manufacturing systems, FMS work station

planning analysis and applications. 6. Computer Integrated Manufacturing: Computer aided process planning, computer integrated production planning

systems, Materials requirements planning, Manufacturing resources planning. 7. Rapid Proto typing: Rapid proto typing (fundamentals only) Text Books: 1. Robotics: - S R Dev 2. Automation Production System and CIM: M P Groover Reference Books: 1. Introduction to robotics: James Rhea, Prentics Hall 2. Introduction to robotics, mechanism and control John J Craig, Addision 3. Foundation of robotic, final analysis and control: Tsuneo Yasikawa (PHI) 4. Fundamentals of robotics, analysis and control Robert J Scheilding, PHI

ME-610 Industrial Safety CR-3 2. Introduction: Safety concepts - Functions and role of safety - Fundamentals of loss control - Safety costs - Direct

and indirect costs of accidents - Life cycle costs - Influence of environment on safety (noise, lighting, temperature, humidity).

3. Safety committee - system safety engineering - Policy - Operator error - qualitative error predictions -accountability - Faulttree analysis - Operating hazards analysis - risk assessment - Safety analysis Programme -Safety sampling.

4. Safety Management: Design for safety - Design engineering tasks - Hazardous - Characteristics of products - Fault hazard analysis -

5. Accident Prevention: Accident and claim losses - high potential accidents - Accident prevention - Modern concepts of accident prevention - Accident investigation records minimising effects of accidents -Motivating safety programme - training - Role of supervisor - Management safety programme.

6. Safety Regulations And Statutes: Law of safety progress - Regularoty agencies and statute laws Statute law vs Comman law - occupational safety and health agency.

Text book: 1. William Hammer, " Product Safety management and Engineering ", prentice Hall Int. Society, 1980. Reference Books: 1. Danier C. Peterson, " Techniques of Safety Management ", McGraw Hill Kogakisha Ltd., Japan, 1971. 2. Check list for work place inspection for improving safety, " health and working condition ", Intl. Labour

Organisation Geneva, 1987. 3. Safety and failure of components, " Proceedings of Mechanical Engineering ", London, Vol. 184, Part 38, 1974.

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ME-611 Total Quality Management CR-3 1. Definition of Quality, Dimensions of Quality, Quality Planning, Quality Costs - Analysis Techniques for Quality

Costs, Basic Concepts of Total Quality Management, Historical Review, Principles of TQM, Leadership - Concepts, Role of Senior Management, Quality Council, Quality Statements, Strategic Planning, Deming Philosophy, Barriers to TQM Implementation

2. TQM Principles - Customer satisfaction - Customer Perception of Quality, Customer Complaints, Service Quality, Customer Retention, Employee Involvement - Motivation, Empowerment, Teams, Recognition and Reward, Performance Appraisal, Benefits, Continuous Process Improvement - Juran Trilogy, PDSA Cycle, 5S, Kaizen, Supplier Partnership - Partnering, Sourcing, Supplier Selection, Supplier Rating, Relationship Development, Performance Measures - Basic Concepts, Strategy, Performance Measure

3. Statistical Quality Control, The Seven Tools of Quality, Measures of Central Tendency and Dispersion, Population and Sample, Normal Curve, Control Charts for variables and Attributes, Process Capability, Concept of Six Sigma, New Seven Management Tools

4. TQM Tools, Benchmarking, Reasons to Benchmark, Benchmarking Process, Quality Function. Deployment (QFD), House of Quality, QFD Process, Benefits, Taguchi Quality Loss Function, Total Productive Maintenance (TPM), ISO 9000 and Other Quality Systems, ISO 9000:2000 Quality System, Implementation of Quality System, Documentation, Quality Auditing

Text Books: 1. Total Quality Management, Dale H. Besterfiled, Pearson Education, 2003 (Indian reprint - 2004) 2. The Management and Control of Quality, James R. Evans & William M. Lidsay, 5th Edition, South-Western (Thomson

Learning), 2002 3. Quality Management - Concepts and Tasks, V. Narayana and N.S. Sreenivasan, New Age International, 1996 4. Total Quality Management for Engineers, M. Zeiri, Wood Head Publishers, 1991

ME-612 Competitive Manufacturing Strategies CR-3 1. Introduction to the Competitive Environment in Market, WTO Agreement and its Effect on Indian Industries,

Manufacturing as a Competitive Strategy, Competitive Advantages and Disadvantages

2. Manufacturing Challenges, Manufacturing Audit, Product Variety, Modular Design, Introduction To DFX Methodologies, Design For Manufacturing, Simulation as Tools for Competitive Manufacturing

3. Selection of Manufacturing Strategies / Systems for Different Manufacturing Scenarios, Dedicated Manufacturing Systems, Flexible Manufacturing Systems (FMS), Cellular Manufacturing Systems (CMS), Re-Configurable Manufacturing System (RMS), Computer Integrated Manufacturing (CIM)

4. MRP-I, MRP-II, TQM, TPM, Six Sigma, Agile Manufacturing, JIT Manufacturing, Kanban System, Rapid Response Manufacturing, World-Class Manufacturing, Molecular Manufacturing, Value Analysis / Engineering and Cost Reduction, Product Life Cycle Management (PLM), Lean Principles and their impact on Manufacturing Cycle Time, Lean Manufacturing, Lean Six Sigma, Core Process Reengineering, Kaizen

5. Effect of Industrial Activity on Environment, Basic Concepts of Clean Technologies and Eco Friendly Manufacturing; Design, Planning and Implementation of Clean Production, Type of Wastes in Manufacturing Industries, Causes of Waste Generation and its Elimination Strategies, Resource Recovery and Recycling, Product Reengineering / Remanufacturing and Demanufacturing

6. Dynamic Customer, Supply Chain Management, Vendor Development and Rating, Evolution, Characteristics and Features of ERP, Network Based Manufacturing, Intelligent and Innovative Manufacturing, E-Manufacturing, Factories of Future (FOF)

Text Books: 1. Manufacturing Excellence in Global Markets, W. Euershelm, Chapman & Hall, 1996 2. Manufacturing Systems Design and Analysis: Context and Techniques, B. Wu, Springer, 1994 Reference Books 1. Intelligent Manufacturing Planning, P. Gu, Chapman & Hall, 1995 2. Fast Track to Waste Free Manufacturing, J.W. Davis, Productivity Press, USA, 1999 3. Clean Production: Environment & Economic Perspective, K.B. Misra, Springer - Verlog, 1996 4. Techniques of Value Analysis & Engineering, L. D. Miles, McGraw-Hill, 1972

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ME-613 Industrial Engineering & Industrial Management CR-3 1. Motion and Time Study: Definition and scope of motion and time study. Method study-its definition and

procedure. Fundamentals of hand motions. Principles of motion economy as related to the use of human body. Process chart and symbols. Flow process chart, flow diagram. Man and machine chart. SIMO chart. Time study: Definition, procedure to find standard time. Rating factor and allowances

2. Management and its functions: Concept of Management: type of Management, Principal functions and levels of Management.

3. Industrial Organization: Nature and Purpose of Organization, Principle of Organization Responsibility, Authority, span of Control, communications, Coordination etc. Organization Strictures (Line, functional and Line & Staff)

4. Strategic Planning Forecasting and Decision Making: Nature and purpose of strategies and policies strategic planning process. Effective implementation of strategies. Definition of Forecasting, Qualitative and Quantitative methods of forecasting. Importance and Limitations of Rational Decision Making, Evaluation of Alternatives, Selecting and Alternative, Decision Making Process Decision making under certainty, Uncertainty and Risk.

5. Materials Management: Its importance and function, purchasing & distribution. Inventory concepts (Inventory categories, types of demand, measures of inventory, inventory costs and types of inventory) Economy order quantity (Total inventory costs, calculation of EOQ. Sensitivity analysis. Limitations) Continuous Review system (Selection of Reorder point) Periodic Review system (Selection of Re-order Interval) Practical Issue (ABC Analysis) Elementary Ideas of Materials Requirements Planning (MRP)

6. Marketing Management: Definition, selling concept vs. Marketing Concept, Marketing Principles and Functions.

7. Financial Management and Engineering Economics: Concept, Objectives, types of Capital, Sources of Finance, Accounting, Assets and Liabilities, Profit and Loss Account, Balance Sheet. Cost Accounting, Elements of Cost, Overheads, Factory cost, Total cost, selling price, break even Analysis. Time value of money, Future value of an investment, present value of a future amount, present value factors, Annuities.

8. Human Resources Management: Definition and concept, functions, Human resource planning, selection Training, Loading and development of manpower, Labor welfare.

9. Industrial Maintenance: Objectives, preventive and Break-down maintenance, optimum Maintenance Rate, Definition of Maintainability, simple Replacement Analysis.

Text Books: 1. Industrial Engineering and Management - O.P. Khanna 2. Industrial Engineering and Management- K.M. Ahuja

Reference Books: 1. Operation Management L.J. Krajewski and L.P. Ritzman. 2. Production and operations Management - Norman Gaither (Operations Management By E.S. Buffa)

ME-705 Tribology CR-3 1. Introduction: Lubricants and lubrication, types of bearings, properties and testing of lubricants, equations of flow,

Hagen Poiseuille flow, flow between two parallel plates 2. Hydrodynamic Lubrication: Petroff’s equation for a lightly loaded bearing mechanism, pressure development in

an oil film, Reynold’s equation in two dimensions, load carrying capacity of journal bearing, Heat balance of lubricants

3. Hydrostatic bearings: Principles, components of hydrostatic lubrication, hydrostatic circular thrust bearing, calculation of required inlet pressure, load carrying capacity, flow rate, power loss in bearing due to friction, concept of gas lubricated bearing.

4. Design and selection of antifriction bearing 5. Friction and wear of metals: Theories of friction, surface contaminants, effect of sliding speed on friction,

classification and mechanism of wear, resistant materials Text books 1. Introduction to tribology of bearings: B C Majumdar, AHW 2. Basic lubrication theory: A Cameron (John Wiley and Sons) 3. Mechanism and machine theory: J S Rao, R V Dukki pati (New Age Publications)

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ME-706 Mechanical Vibration and Noise Engineering CR-3 1. Two Degree of Freedom Systems: Generalized Derivation of Equation of motion, Static and dynamic coupling,

Langrange’s equations. Undamped dynamic vibration observer, centrifugal pendulum absorber.

2. Multi-Degree of freedom system: Derivation of Equations, Influence coefficients, Eigen values and Eigen vectors, Calculation of Natural Frequencies by Rayleigh, Stodala, Matrix iteration and Holzer-Methods.

3. Torsional Vibration: Multi-rotor systems, geared system and branched system

4. Vibration of continuous system: Vibration of strings, free longitudinal vibration of prismatic bars, Lateral vibrations of uniform beams.

5. Introduction to acoustics: Propagation of acoustic disturbances, the decibel scale for the measurement of sound pressure, Acoustic energy density and intensity, the wave equations, acoustic impedance.

6. Human Response to sound: Noise effects, auditory response, Ratings and Regulations.

7. Noise and vibration control: Principles of passive noise control, Acoustic enclosures, Acoustic barriers, Sound-absorbing materials, Vibration isolations materials, Dynamic absorption and Damping materials.

Text Books:

1. Mechanical Vibrations and Noise Engineering by Ashok G. Ambekar, PHI.

Reference Books:

1. Theory of Vibration and Application, by William T.Thomson, CBS.

2. Textbook of Mechanical Vibrations, by Rao.V.Dukkipati,PHI

3. Noise and vibration control, by L.Beranek,McGraw-Hill

ME-707 Power Plant Engineering CR-3 1. Sources of energy: Fuel, water, wind and nuclear reactors. Principal types of power plants and choice of power

plants.

2. Steam power plants

Generation of steam: Boilers and its mountings and accessories, combustion equipment, Air supply systems for combustion, fuel and ash handling systems, dust collectors

Flow of stem through nozzles: Continuity, energy and momentum equations, nozzle shape for different applications, Outer velocity, throat and exit areas for flow without and with friction, choked flow and critical pressure ratio, effect of variations in nozzle back pressures, super saturated flow in nozzles.

Flow of steam through turbine blade passages: types of steam turbines, axial variation of pressure and velocity through various types of turbines.

Performance: Power efficiency and other related calculations for simple impulse, pressure compounded impulse and velocity compounded impulse turbines using velocity triangles. Reaction turbines and degree of reaction. Parsns turbines, Power efficiency and other related calculations for reaction turbine. Internal losses in steam turbines and reheat factor.

Governing of steam turbines. (Only descriptive study)

3. Steam condensers and cooling tower for power plant application: Surface condensers, condenser vacuum and vacuum efficiency, maintaining vacuum by air pumps, sources of air leakage into the condenser, Dalton’s law of partial pressures applied to steam and air mixtures, Air pump capacity for wet and dry air pumps, Cooling water requirements, Cooling towers(Only descriptive reference)

4. Nuclear power plants: Nuclear fuels, Chain reaction, Neutron balance, coolants, Reflectors, Moderators, control rods, types of reactors, Boiling water reactors, pressurized water reactors, Heavy water reactors and breeder reactors

Text Book:

1. Power plant engineering by P K Nag (TMH)

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ME-708 FINITE ELEMENT METHOD CR-3 1. Introduction: Overview of FEM, General description of FEM, Engineering Application of FEM.

2. Basic Procedure: Discritization of domain, interpolation models, simplex, complex and multiplex elements, selection of the order of the interpolation, convergence requirements, linear interpolation polynomialsin Global and local co-ordinate system.

3. Higher Order and Isoparametric Elements: Higher order elements in terms of Natural co-ordinate system, one dimensional elements using classical interpolation polynomials, two dimensional elements using classical interpolation polynomials, Isoparametric elements, numerical integration.

4. Derivation of Element Matrices and Vectors: Direct Approach, Variatonal approach, derivation of Finite Element equations using Rayleigh-Ritz and Galerkin Method, Solution of eigenvalue problems using weighted Residual approach.

5. Assembly of Element Matrices and Derivation of System Equations: Co-ordinate transformations, Assemblage of Element equations, Incorporation of boundary conditions.

6. Application to Solid Mechanics and Heat Transfer Problems: Formulation of solid and structural mechanics, formulation of FE equations( Static Analysis), application to (Truss Elements, Beam Elements, Triangular Elements, Tetrahedral Elements)

Text Book:

1. The Finite Element Method in Engineering, S S Rao ,Elsevier Publications

Reference Book:

1. Concept and Application of FEM by R D Cook, D S Malkus et.al, (Wiley edition)

ME-710 Gas Dynamics and Jet Propulsion CR-3 1. Energy equation for a flow process, stagnation value, various regions of flow, critical velocity of sounds, Rocco

number, effect of Mach number on compressibility, rate equation of momentum, energy and entropy.

2. Isotropic flow with variable area: Mach number variation ,stagnation critical state, area ratio as function of mach number, impulse functions, mass flow rate, flow through nozzles and diffusers, use of gas tables.

3. Wave motion: wave propagation in elastic solid medium, propagation sound waves, pressure field due to a moving source of disturbance, mach angle

4. Flow with normal shock waves: governing equations, variation of mach number, static pressure, temperature and density across the shock. Strength of shock waves, moving shock waves.

5. Flow in constant area ducts with friction.

The fanno curve, fanno flow equation and solutions variations of flow properties, table and charts for fanno flow

6. Flow in constant area ducts with heat transfer the Rayleigh’s line, fundamental equation, rayleigh flow equations variation of flow properties, maximum heat transfer, tables and charts of rayleigh flow

7. Jet propulsion: Thrust equation, maximum thrust relationship, engine performance parameters, ramjet engine, ideal ramjet, ideal and actual turbo jet engine

8. Rocket propulsion operation principle, thrust equations, specific characteristics velocities, impulse weight ratio.

References:

1. Fundamentals of compressible flow: SM Yahya

2. Compressible fluid flow: MA saad, Prentice Hall

3. Elements of Gas Dynamics: Leipmann and Rosko, Willey

4. Air craft and Missile propulsion: MJ Zucrow, john Willey

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ME-711 Machine Tools Technology CR-3 1. General classification of machine tools, working and auxiliary motions, Hydraulic transmission and its elements

Mechanical transmission and is elements, General requirement of machine tools. 2. Kinematics of Machine Tools: Stepped and stepless drive, basic consideration on the design of drives, Variable

speed range in machine tools, Graphical representation of speed and structure diagram, selection of optimum ray diagram, design of speed and feed gear boxes, Step less regulation of speed and feed rates

3. Machine Tool structure: Design criteria, materials static and dynamic stiffness, basic design procedure, design of beds and columns, Model technique in design of machine tool structure

4. Guideways and powers Screws: classification of guideways, materials and lubrication. Design criteria and calculations for slideways, Design of guides under hydrostatic lubrication. Aerostatics slideways, Antifriction guideways combination guideways, Classifications of power screws, Design principle of powers screws, re-circulating powers screw assemblies, elimination of backlash

5. Machine tool spindles and its bearings: Materials of spindles, effect of machine tools, compliance on machining accuracy, design principles of spindles, antifriction and sliding bearings

6. Controlling system in machine tools: Classifications, control systems for changing speeds and feeds, ergonomics consideration applied to design of control members, principle of automatic and adaptive control

7. Vibration in machine tools: Forced vibration, self excited vibration, stick -slip vibration and its minimization, vibration isolation.

8. Numerical control of machine tool: Fundamental concepts and its classifications, Components of NC machines and their description, elements of part programming.

Text books:

1. Machine tool design: N K Mehta, TMG 2. Design of machine tools: S K Basu & D K Pal (OIBH) 3. Principle of machine tool: G C Sen and A Bhattacharya (New Central book Agency)

ME-712 Introduction to Composite Materials CR-3 1. An overview of composites, properties and nature of composites. Classification & characteristics of composite

materials, Mechanical behavior of composites, constituents, reinforcements, matrices, fillers, additives, application and advantages of composites.

2. Metal matrix, ceramic matrix and polymer matrix composites reinforced each natural and synthetic fibres. Laminating schemes, short and long fibre composites.

3. Processing methods: Hand layup technology, spray up technology, match and molding process. injection and transfer molding, compression molding processes, filament winding techniques.

4. Mechanics of composite materials: calculation optimum fibre volume fraction, evaluation of molds of elasticity and poisons.

5. Test methods: types of specimen, mechanical test of FRP composites, environmental effects on composite structures. 6. Application of Composites Reference books: 1. RM Jones, Mechanics of composite materials, 1975 2. Manufacturing process of Advance composites by F.C Campbell. 3. Composite Materials: Design & Applications by Daniel Gay Suougv,Hog, Stephen W. Tsgi

ME-713 Modelling and Simulation CR-3 1 System and System Environment: Component of a system Continuous and discrete systems Models of a system

modeling.

2 Random Number Generation: Midsquare The midproduct method Constant multiplier method Additive congruential method Test for random numbers: the Chi-square test the Koimogrov Smimov test Runs test Gap test

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3 Random Variable Generation: Inverse transform technique Exponential distribution Poisson distribution, Uniform distribution, Weibull distribution Empirical distribution Normal distribution Building and empirical distribution The Rejection method.

4 Simulation of Systems: Simulation of continuous system Simulation of discrete system Simulation of an event occurrence using random number table. Simulation of component failures using Exponential and weibull models.

5 Simulation of single server queue and a two server queue. Simulation of inventory system Simulation of a network problem Simulation using Simulation languages/ packages.

Text Books:

1) Bankds J., Carson. J.S., and Nelson B.L., Discrete Event System Simulation, Prentice Hall of India, New Delhi, 1996.

2) Gottfried B.S., Elements of Stochastic Process Simulation, Prentice Hall, London, 1984.

References

1) Geoffrey Gordon., System Simulation, Prentice Hall of India, 1984.

2) Narsingh Deo., System simulation with Digital Computer, Prentice Hall of India, 1979.

ME-808 Mechatronics CR-3 1. Introduction: Definition of Mechatronics Systems, Philosophy and Approach.

2. Electrical components and Electronic devices: Resister, Inductor and Capacitor; Reluctance and impedance; Basic electronic devices- Junction diodes, bipolar transistors

3. Basic Digital Technology: Digital number system, binary number system, hexadecimal number system, binary addition, Boolean algebra, Logic function, Universal gates, Flip flops, Registers, Counters.

4. System modelling: Mechanical system, electrical system, thermal system, fluid system

5. Transducers and sensors: Principles, Types of transducers-Photo emissive, photo conductive, photovoltaic, thermistors, thermocouples, Inductive, capacitive, Piezoelectric, Hall effect transducers. Instruments: Encoders, Bimetallic strip, strain gauge, Load cell

6. Actuators: Electromagnetic principles, Solenoids and relays, electric motors, DC motors, Stepper motors, Hydraulic valves, hydraulic actuators, Pneumatics

7. Microprocessors and microcontroller: Microprocessor based digital control, registers, program counter, Intel 8085 microprocessor

8. Case studies – Examples of Mechatronic Systems from Robotics, Manufacturing, machine Diagnosis, Road Vehicles and Medical Technology.

Text Book:

Mechatronics, P Bolton, Pearson Publishers

Mechatronics: N G P C Mahalik, Tata McGraw Hill

ME-809 Production Planning and Control CR-3 1. Introduction to Production Planning and Control: Production system, type of manufacturing systems and their

characteristics, objectives and functions of PPC, Framework of PPC

2. Preplanning: Demand forecasting, common techniques of demand forecasting, estimating factors of production, product mix and batch size decisions, aggregate planning

3. Production Planning: Routing, Loading and scheduling with their different techniques, dispatching, Progress Report, Expediting and corrective measures

4. Master Production scheduling: MRP and MRP-II, Capacity planning and Utilization

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5. Inventory Control: Field and scope of inventory control, inventory types and classification, inventory control models, static model, dynamic model (deterministic and stochastic), Economic lot size, reorder point and their application, management issues, EOQ determination, order timing decisions,

6. JIT, ABC analysis, VED analysis and value analysis, modern practices in purchasing and storekeeping, concept of productivity, Introduction to Supply chain management

Text Books

1. S. Buffa, Modern operations / production management, Wiley India Pvt Ltd

2. S.N. Charry, Production and operations management, TMH

3. G.W. Plossel, Production and Inventory Control, Prentice-Hall

4. E.D. Scheele, Principles and Design of Production Control Systems, Prentice-Hall

5. D.K. Corke, Production Control in Engineering, E. Arnold

6. K. Bedi, Production and Operations Management, Oxford University Press

ME-810 Machine Maintenance and Condition Monitoring CR-3 1. Maintenance strategies: Breakdown, Preventive, Predictive and Proactive maintenance. Plant machinery

classification, Condition based maintenance.

2. Transducers for condition monitoring: Principles and application of accelerometers, velocity pickups, eddy current probes, stroboscopes, proximity probes, spike energy detector, laser vibrometer, condenser microphones, thermocouples, optical pyrometer, ultrasonic thickness detector, acoustic emission transducer.

3. Fundamentals of Signal processing: Fast Fourier Transform (FFT) analysis, Sampling rate, Nyquist sampling theorem, aliasing, filters, A/D converter, Windowing.

4. Vibration Monitoring: Measuring vibration: Signal forms, phase, overall and spectral vibration, Measurement point location, Transducer mountings.

Rotating machinery fault analysis: Imbalance, Misalingment, Looseness, Oil whirl, Bent shafts, coupling problem, bearing defects, Gear defects.

Vibration level classification: ISO standards, Peak and RMS levels, Time domain averaging, Trending fault data.

Case studies based on vibration data and signature of machines.

5. Wear and Debris Analysis: Principle of Tribology, Industrial and Automotive Lubricants, Lubricants Properties, Lubricants Contamination and Prevention, Lubricants Mechanism and Failures, Sampling of Lubricants, Wear particle size, Ferrography, Particle Counting, Magnetic Plugs, Spectrometric metals analysis and Types of Wear Particles.

Case studies based on oil analysis data of machines.

6. Temperature Monitoring: Infra-red Thermograghy, Principles, Instruments, Thermal imaging, Locating hot spots for maintenance intervention, Ascertaining condition of refractory lining, Identifying faults in cooling system and in electrical Equipments, Plant Heat audit .

Case studies based on thermal images.

7. Non Destructive Testing: Faults that can be detected by NDT, Ultrasonic, Radiography Methods, Eddy Current Method, Acoustic Emission Method, Dye penetrant Method.

Case studies based on available NDT data.

8. Advance Maintenance Practices: Total Productive Maintenance (TPM), Reliability Centered Maintenance (RCM), Computerized Maintenance Management Systems (CMMS), Five Zero Maintenance Concept. Maintenance Planning and Scheduling, Budgeting, Costing.

Text Book:

Maintenance Engineering and Management by Sushil Kumar Srivastava, S.CHAND

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ME-811 Fundamentals of CFD CR-3 1. Basic equations of fluid dynamics, types of second order partial differential equations, linear and non linear

equations.

2. Finite difference formulation of one dimensional steady state heat conduction in Cartesian coordinates, Conditions of stability, boundary conditions: prescribed temperature, prescribed heat flux, convection boundary condition, radiation boundary condition, combined convection and radiation boundary condition.

3. Methods of solving simultaneous algebraic equations, Gaussian elimination method, matrix inversion method, iterative method. SOR method

4. Two dimensional steady state conduction equations in Cartesian coordinates. Difference equation for boundary nodes.

5. One dimensional transient heat conduction: the explicit and implicit methods, stability and convergence, Crank-Nicholson implicit method.

6. Finite Volume method, Application of finite volume method in heat transfer problems.

Reference:

1. Introduction to Computational fluid dynamics, Pradip Niyogi, S K Chakraborty, L K Laha, Pearson

2. An introduction to computational fluid dynamics, the finite volume method, H K Versteeg & W Malalakekera

3. Computational fluid dynamics, the basics with applications: John D Anderson, Jr; McGaw Hill International

ME-812 Materials Management CR-3 1. Materials Management: An Overview; Objectives; Evolution; Strategies; Functions; Profit Making Potential; Costs.

2. Inventory Management: Stages; Selective Control; Demand Forecasting; Lead time; Safety Stock; Fixed Quantity Reorder System; Fixed Period Reorder System; MRP and JIT systems; Inventory Valuation.

3. Purchasing: Objectives; Types of Materials; Important Aspects; Procedures; Quality; Quantity, Time, Price and Source; Standardization and Codification; Vendor development; Value Analysis; Make or Buy Decisions; Negotiations; Institutional, Government and International Buying; Capital Equipment Purchases. Warehousing and Transportation: Warehouse Location; Transportation; Receiving, Issuing and Store Keeping.

4. Inventory systems-Quantity.Perodic-Deterministic and probablistic models-Static inventory model.

5. Just in time purchase-Japanese management-Modern trends in material management-Value management purchasing research-International purchasing-Logistic management.

Text Book:

1. Lamer Lee and Donald W Dobler, Purchasing and Materials Management, Textand cases,Tata McGraw-

Hill, 1996.

References:

1. Gopalakrishnan P. Handbook of Materials Management, Prentice Hall of India, 1996.

2. Joseph. M.Operatopm management, McGraw Hill, 1990.

3. Guptha, P.K and Manmohan, Problem in Operation Research, Sultan Chand & Sons, 1994.

4. Kumar and Ghose, Materials Management, 1991.

ME-813 Computer Integrated Manufacturing CR-3 1. Fundamental of Manufacturing and automation: Types of production, functions in manufacturing, production

concepts and mathematical models, automation strategies.

2. Process planning: Introduction, process plan development, CAPP, CAPP benefits, CAPP approaches, Variant CAPP, Generative CAPP, Hybrid CAPP.

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3. Numerical Control production System: Numerical control, coordinate system and machine motion, Types of NC system, machine tool applications, problems of conventional NC, CNC, DNC.

4. Part Programming: Basics of NC programming, mathematics of tool paths, machining forces, Tool offsets, programming steps, NC programming Languages, G-Code and M-Code, APT Programming, CAD/CAM NC programming.

5. Computer Networks for manufacturing: Hierarchy of computers in manufacturing, local area networking, manufacturing automation protocol.

6. The Future automated Factory: Trends in manufacturing, The future automated factory.

Text:

1. Automation, Production System and Computer Integrated Manufacturing, M P Groover, Pearson

2. CAD/CAM by Ibrahim Zeid, TMH

ME-814 Fundamental Engineering Optimization CR-3 1. Introduction: Engineering applications of optimization, structure of an optimization problem, classification of

optimization problems, single variable optimization.

2. Multivariable Optimization Problems: Multivariable optimization: with no constraints (semi definite case), with equality constraints (method of direct substitution, method of Lagrange multipliers), with inequality constraints (Kuhn-Tucker conditions).

3. Nonlinear Programming:

1-D minimization methods: Golden section method, Interval halving method, Newton and Quasi-Newton methods.

Unconstrained Optimization Methods: Random jump method, Random walk method, Grid search method, Simplex methods, Steepest Descent method, Conjugate gradient method.

Constrained Optimization Methods:

Interior penalty function method, Penalty function method for problems with mixed equality and inequality constraints, Taguchi method, Application problems: design of a three bar truss, welded beam design, heat exchanger design.

4. Dynamic Programming: Multistage decision processes, Principle of optimality, computational procedure, calculus method, tabular method, Application to design of continuous beams, design of a gear train.

5. Modern Optimization Methods: Piecewise linear approximation of a nonlinear function, Bounded objective function method, Optimal control theory (necessary conditions), Genetic algorithm (introduction), Neural network based optimization, Optimization of fuzzy systems (computational procedure), Simulated annealing.

Text Books:

1. Optimization in Engineering, K. K. Deb

2. Engineering Optimization (Theory & Practice), Singiresu S. Rao, New Age Int. Publ.

ME-815 Advanced Material Processing Technology CR-3 1. Definition and classification of polymers; Processing of polymers: molding (compression, transfer, injection, blow)

extrusion (pipe, sheet, film), Thermoforming, calendaring, casting, surface coating, tube forming, foaming, machining and joining of plastics

2. Definition and classification of ceramics; Processing of structural ceramics, high-temperature load bearing ceramics, corrosion-resistant ceramics, insulating ceramics, whitewares, glass, electrical ceramics and chemically bonded ceramics

3. Definition and classification of composites, MMC, PMC, CMC; Nanocomposites; Fabrication of composite materials: pultrusion, filament winding, prepreg technology, injection and compression moulding, bag moulding, resin transfer moulding, reaction injection moulding

4. Characterization and processing routes of cellular metals like ultra light materials and metal foams

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5. Fabrication of smart materials, shape-memory alloys, piezoelectric ceramics, magnetostrictive materials, optical fibres, microelectromechanical (MEMs) devices, electrorheological / magnetorheological fluids, Nanomaterials, Coatings and high- temperature materials

6. Classes of materials used in medicine, Application of materials in medicine and dentistry Various materials and coatings for implants

Text Books

1. Jadmor Z and Gogos, C.G. Wiley, Principles of Polymer Processing, Interscience, John Wiley

2. K.K. Chawla, Composite Materials – Science & Engineering, Springer-Verlag, New York

3. Hans Peter Degischer and Brigitte Kriszt, Handbook of Cellular metals, Production, Processing, Application, Wiley - VCH

4. L.J. Gibson, and M.F. Ashby, Cellular Solids, Structure and Properties, Cambridge University Press

5. M. F. Ashby and A. Evans, Metal Foams: A Design Guide, Butterworth-Heinmann, Massachusetts

6. B.D. Ratner, A.S. Hoffman, F.J. Sckoen, and J.E.L Emons, Biomaterials Science: An Introduction to Materials in Medicine, Academic Press

ME-311 Thermodynamics CR-4 1. Preliminary Concept: Laws of perfect gas in Engineering Units. Relationship between CP, CV, R and J, Constant

Pressure, Constant Volume, isothermal and adiabatic process. Second law of thermodynamics: Entropy, Work

done, heat added and entropy changes in simple processes.

2. Steam: Constant pressure formation of steam, Enthalpy and specific volume of dry, wet and super heated steam.

Use of Mollier chart.

3. Steam Power plant: Survey of steam power plant, Boiler: Fibre Tube and water tube boilers, description and

working of Babcock Wilcox boiler, Econimiser, Super heater, Safety valve, Pressure Gauge, Blow off-cock and

other boiler mountings. Expansion steam through a nozzle, Steam Turbines, types and compounding.

4. Gas Turbines: Principle of operation, simple open and closed cycles

5. I.C. Engines: Compression and Spark ignition engines, 4-stroke and 2-stroke cycles, valve timing, Fuel supply

system, Governing, Air standard efficiency of otto, disel and dual cycle combustion cycles.

6. Air Compressor and Motor: Working Principles of reciprocating air compressor, single stage intercooled and

multi stage intercooled, Air motor and other applications of compressed air.

Reference Books:

1. Thermodynamics and Heat Power Engineering-Mathur and Mehts.

2. Thermal Engineering- P. L. Ballaney

EAA-1 Extra and Co-Curricular Activities

Discipline & Co and extra curricular activities are essential part to be incorporated in the academic programme of the University. In order to promote all round growth and development of the students, every student is expected to maintain discipline in the campus and hostel, participate in curricular and extra-curricular activities, blood donation programmes, mentoring to the freshers and image building of the University. This component will be in the 2nd and 3rd semesters of the curricula.

B[1].Tech Detailed Syllabi

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