DIAT Course of Study- 2013

Course of Study for

Post Graduate Programmes

Defence Institute of Advanced Technology (Deemed University)

Pune 411025

2013

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No Titles Page No.

1 Academic Calendar 2013-2014 5 6

2 Programme Curriculum 8 - 58 2.1 M. Tech. Aerospace Engineering (Guided Missiles) 8 2.2 M. Tech. Aerospace Engineering (Air Armament) 12 2.3 M. Tech. Chemical Science & Technology 16 2.4 M. Tech. Modelling & Simulation 19 2.5 M. Tech. Laser & Electro Optics 24 2.6 PG Diploma in Biosciences & Engineering 28 2.7 M. Tech. Computer Science & Engineering (Cyber Security) 32 2.8 M. Tech. Electronics Engineering (Radar & Communication) 36 2.9 M. Tech. Defence Electronic Systems 40 2.10 M. Tech. Electronics Engineering (Signal Processing and Communication) 43 2.11 M. Tech. Materials Science & Technology 47 2.12 M. Tech. Mechanical Engineering (Armament/Combat Vehicles) 51 2.13 M. Tech. Mechanical Engineering (Marine) 55 3 Syllabus of Courses offered by Departments 60 220 3.1 Department of Aerospace Engineering 60 3.2 Department of Applied Chemistry 81 3.3 Department of Applied Mathematics 94 3.4 Department of Applied Physics 107 3.5 Department of Bioscience & Technology 118 3.6 Department of Computer Science & Engineering 141 3.7 Department of Electronics Engineering 155 3.8 Department of Materials Engineering 175 3.9 Department of Mechanical Engineering 183 4 Registrar Office 222

CONTENTS

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This book gives comprehensive information on the structure, curriculum and syllabus of

various Post Graduate programmes. The Board of Studies and Academic Council Continuously

monitor these Courses and makes appropriate modifications / improvements from time to time.

In order to keep pace with the rapid developments in science and technology and also to

keep in view the requirements of the nation and the aspirations of students, it is imperative that

the academic programmes of the institute are reviewed continuously.

The academic system is semester based and hence the students are required to follow

certain procedures and meet certain academic requirement each semester. The academic

performance is monitored by Postgraduate Graduate Committee (PGC), which also reviews

status of individuals after reviewing their performance.

The advisory system plays a very important role in a flexible curriculum of the type

offered under the various programmes of the Institute. The choice of courses being very wide

and considerable flexibility in the programme being its characteristic feature, students normally

need guidance to formulate a meaningful and well knit programme for each of them.

PREFACE

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Academic CalendarAcademic CalendarAcademic CalendarAcademic Calendar

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ACADEMIC CALENDAR 2013-14 AUTUMN SEMESTER (July Dec 2013)

Sl. No. Activity Dates for 2013-14

1. Registration for new entrants (Ph. D/ M. Tech/MS by Research 08th -12th July 2013

2. Re-examination for Spring semester courses 11th -15th July2012 3. Finalization of Electives 09th -19th July 2012

4. Sending Certified list of courses (Regular, Self study, Audit etc) registered by the students - by Dy Reg. (ACs) to COE

25th July 2013

5. Classes 15th July- 30th Aug 2013 6. Sending the Panel of Examiners to COE 23rd Aug 2013

7. Last date of submission of Examination form and Admit card to COE by the Students.

23rd Aug 2013

8. Mid Semester Examination 02nd -11th Sep 2013 9. Last date for submission of Mid Sem Marks to COE 20th Sep 2013 10. Classes 12th Sep 31st Oct 2013

11. Sending of list of courses (including new courses) to be offered in spring Semester of academic year 2013 14

25th Oct 2013

12. Last date for receipt of internal evaluation marks 25th Oct 2013 13. Preparatory for End Sem Exam 01st Nov 08th Nov 2013 14. End Semester Examination 11th Nov -05th Dec 2013

15. MS by research Progress Evaluation by GTC & PhD progress Evaluation by DRMC & Registration for spring semester

02nd Dec 14th Dec 2012

16. Recommendation of oral Examination Committee by HoDs to Chairman PGC for Approval-thesis first evaluation

30th Nov 2013

17. Seminar Presentation & Evaluation / Practical Examination (M. Tech. 1st Sem); Thesis presentation (M. Tech. 3rd semester) *Outstation Instructional Tour (Optional)

03rd Dec -13th Dec 2013

18. Submission of Marks (Courses / Seminar / Thesis) 17th Dec 2013 19. Winter Break 23rd Dec 2013-05th Jan 2014 20. Result Declaration Autumn Semester 06th Jan 2014

* Programmes having Outstation Instructional Tour may conduct the same during the schedule without affecting other activities

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SPRING SEMESTER (Jan June 2014) Sl. No. Activity Dates for 2013-14

1. Registration for new entrants (Ph. D & M.S. by research M. Tech & Orientation

6th -10th Jan 2014

2. Re-examination for Autumn semester courses 13th -17th Jan 2014 3. Add/Drop Courses 13th Jan- 17th Jan 2014 4. Sending Certified list of courses (Regular, Self study,

Audit etc) registered by the students - by Dy Reg. (ACs) to COE

24th Jan 2014

5. Classes 13th Jan -21st Feb 2014 6. Sending the Panel of Examiners to COE 14th Feb 2014 7. Last date of submission of Examination form and Admit

card to COE by the Students. 17th Feb 2014

8. Mid Semester Examination 24th Feb -7th Mar 2014 9. Last date for submission of Mid Sem Marks to COE 18th Mar 2014 10. Classes 10th Mar 25th Apr 2014 11. Sending of list of Suggested Examiners for M.Tech thesis

oral board (Batch 2012) 14th April 2014

12. Sending of list of courses (including new courses) to be offered in Autumn Semester of academic year 2013 14

28th April 2014

13. Last date for receipt of internal evaluation marks 25th Apr 2014 14. Preparatory for End Sem Exam 26th Apr 2nd May 2014 15. End Semester Examination 5th -19th May 2014 16. Recommendation of Oral Examination Committee by

HODs to COE for approval-thesis final evaluation 20th May 2014

17. M.Tech Thesis Oral Examination 28th Apr- 3rd May 2014 18. Group photograph 20th 24th May 2013 19. Marks submission : Thesis Evaluation 10th May 2014

20. Outstation Instructional Tour (Optional) 26th May- 31st May 2014 21. MS Progress Evaluation by GTC & PhD progress

Evaluation by DRMC 28th May 10th June 2014

22. Completion of PG Programmes : Final Semester 10th June 2014 23. Submission of Marks to COE 5th June 2014 24. Summer Break 9th June 4th July 2014 25. Result Declaration 7th July 2014

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Programme CurriculumProgramme CurriculumProgramme CurriculumProgramme Curriculum

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DEPARTMENT OF AEROSPACE ENGINEERING

The Department of Aerospace Engineering, formerly known as Faculty of Guided Missiles was established in 1960 with a mission to impart knowledge to scientists and service officers to take up the challenges in design, development and use of guided missiles. The Department strives to achieve the following goals:

Teaching and research in the area of guided missiles, air armament and related fields.

Undertaking projects and research work in the field of guided missiles. Dissemination of information on the latest trends on missiles technology and allied fields. Currently this department is engaged in teaching and research in the area of aerospace

engineering, presently with particular reference to guided missile technology. Various sections and laboratories of department have made considerable progress in research. Following is the list of areas of research of the faculty:

Research Areas:

Flight control and dynamics

Missile system design

Guidance navigation and control

Propulsion systems and combustion instability

Experimental aerodynamics and turbulence

Aerospace structures

M. Tech. Aerospace Engineering (Guided Missiles)

Brief Description: The department had been involved in conducting post-graduate programme in Aerospace Engineering with emphasis on Guided Missiles Technology. The programme is also known as the Special Weapon Course (SWC) and consists of courses in all the areas related to guided missiles, practicals, seminars, and dissertation work. The curriculum of the programme was formulated to meet the needs of the three services, Defence R&D Organization, DGOF, MSQA, CGQA and Public Sector Undertakings dealing with missiles and related technologies.

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From academic year 2009-10 onwards, the programme was also opened up for civilian GATE qualified students with intake of 05 seats.

As stated earlier, the present curriculum has more emphasis on missile technology. In order to cater the needs of diverse aerospace activities DRDO is involved in, it is proposed to widen the scope of the programme and to this end, a new curriculum is proposed here with an aim to implement the new programme from the academic year 2012-13.

Eligibility: B.E./B. Tech. degree in Aerospace/ Aeronautical/ Mechanical/ Chemical/ Electrical/ Electronics/ Electronics and Communication / Instrumentation from recognized university / Graduate of Aeronautical Society of India.

Organization: The programme will be of four-semester duration and is fully residential. There are 16 courses and one laboratory/seminar offered in four semester duration. In each of these semesters, there will be a mid-semester examination and an end semester examination for every course. The second year of the programme will be primarily devoted for dissertation work. In the second year, half yearly evaluation of the dissertation work would take place at the end of the third semester. At the end of the final semester, the student submits a thesis and makes a presentation on his/her dissertational work, which will be evaluated by a committee of examiners. The details of the courses offered under the programme are given below:

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Semester I

Contact Hours/week Sl. No.

Course Code Courses L P

Marks

1 AE 601 Aerodynamics 3 0 100

2 AE 602 Elements of Propulsion 3 0 100

3 AE 603 Aerospace Structures 3 0 100

4 AE 604 Navigation, Guidance, and Control 3 0 100

5 AM 601 Advanced Mathematics 3 0 100

6 MS 601 Materials for Defence Applications 3 0 100

7 AE 641 Laboratory/Seminar 0 2 50

Total 18 2 650

Semester II Contact hours/week Marks Sl.

No. Course Code Courses L P

1 AE 605 Flight Vehicle System Design & Analysis 3 0 100

2 AE 606 Missile Aerodynamics 3 0 100

3 AE 607 Missile Propulsion 3 0 100

4 AE 608 Missile Structures 3 0 100

5 AE 609 Missile Guidance 3 0 100

6 AE 610 Missile Control 3 0 100

Total 18 0 600

Semester III

Contact Hours /week Sl No.

Course Code Course L P Marks

1 AE 620 Systems Engineering 3 0 100

2 Elective-I 3 0 100

3 Elective-II 3 0 100

4 AE 651 M.Tech Dissertation I 6 200

Total 15 500

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Semester IV Contact Hours /week Sl

No. Course Code

Course L P

Marks

1 PG 601 Project Management 3 0 100 2 AE 652 M.Tech Dissertation II 12 400

Total 15 500

List of Electives

Sr. No.

Course Code

Course

Elective I & II

1 AE 611 Flow Stability and Turbulence

2 AE 612 Ducted Rocket & Combustion

3 AE 613 Aircraft Propulsion

4 AE 614 Aircraft Stability and Control

5 AE 615 Nonlinear and Robust Control

6 AE 616 Structural Dynamics and Aero-elasticity

7 AE 617 Flight Instrumentation

8 AE 618 Space Technology

9 AE 619 Avionics

10 ME 653 Advanced Materials and their Processing

11 ME 607 Finite Element Methods

12 ME 608 Computational Fluid Dynamics

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M.Tech. Aerospace Engineering (Air Armament)

Brief Description: The aim of the program is to impart advanced training and to update knowledge in the field of design, development, quality assurance and Inspection of air armaments to engineering officers from Air Force, Navy & DRDO. At the end of the program the officer should be able to undertake R&D work and/or inspection, testing and evaluation of aircraft armament systems.

Eligibility: Bachelors Degree in Aeronautical/Mechanical Engineering of a recognized Institute/University.

Organization: M. Tech (Aerospace Engg.) (Air Armament) is a four-semester program. In the first semester there are six courses and a Laboratory. In the second semester there are six courses. In each of these semesters, there will be a mid semester examination and a final semester examination for every course. The student is evaluated for Laboratory work at the end of first semester. The third and fourth semesters are devoted for M.Tech project. Half yearly evaluation of the project takes place at the end of the third semester. At the end of the final semester the student submits a thesis and makes a presentation about the project, which is evaluated by the Internal and External examiners. Visits to various DRDO labs, Ordnance Factories, Armament Depots are planned to enhance students appreciation & understanding of the subject and provide them with opportunity to get hands on experience on various test equipment and procedures related to design, manufacturing and testing of air armament stores. The details of the courses offered under the programme are given below:

Semester I Contact Hours / Week Sl.

No. Course Code

Courses L P

Marks

1 AFW 601 Ballistics of Bombs & Projectiles 3 0 100

2 AFW 602 Air Armament Control & Guidance 3 0 100

3 AFW 605 Design of Air Armament-I 3 0 100


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6 Elective-I 3 0 100

7 AFW 641 Laboratory/Seminar 0 2 50

Total 18 2 650

Semester II Contact hours / Week Marks

S N Course Code

Courses L P

1 AFW 604 Testing and Certification of Air

Armament Stores

3 0 100

2 AFW 606 Design of Air Armaments-II 3 0 100

3 AFW 610 Warhead Design and Mechanics 3 0 100

4 AC 601 Explosives Propellants and

Pyro-techniques

3 0 100

5 AE 607 Missile Propulsion 3 0 100


Total 18 0 600

Semester III Contact Hours /Week Sl.

No. Course Code

Course L P

Marks


2 Elective-III 3 0 100

3 Elective-IV 3 0 100

4 AFW 651 M.Tech Dissertation I 6 200

Total 15 500

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Semester IV

Contact Hours /Week Sl. No.

Course Code

Course L P

Marks

1 PG 601 Project Management 3 0 100 2 AFW 652 M.Tech Dissertation II 12 400

Total 15 500

List of Electives

Sr. No.

Course Code

Course

Elective I

1 AE 601 Aerodynamics

2 AE 602 Elements of Propulsion

3 AE 603 Aerospace Structures

4 AE 604 Navigation, Guidance, and Control

Elective II

1 AFW 614 Fire Control Systems



Elective III & IV

1 AE 611 Flow Stability and Turbulence

2 AE 612 Ducted Rocket & Combustion

3 AFW 612 Airborne Weapon System Effectiveness

4 AE 613 Aircraft Propulsion

5 AE 603 Aerospace Structures

6 AE 614 Aircraft Stability and Control

7 AE 615 Nonlinear and Robust Control

8 AE 616 Structural Dynamics and Aero-elasticity


10 AC 602 NBC Weapons

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DEPARTMENT OF APPLIED CHEMISTRY

The department of Applied Chemistry started in 1986 with the aim to impart education and training to DRDO work force in the area of high energy materials and propellants. Over the years Department has grown up to cater to the need of DRDO and civilian students in order to bring the DRDO achievements closer to our society. The Departments aim is to contribute to our understanding of the chemical world through excellence in observational, theoretical and experimental science and to extend quantitative and other appropriate methodologies to address problems in the fields of applied chemical science. In Applied Chemistry Department, we are endowed with faculties who are dedicated teachers and distinguished researchers who carry out cutting-edge research in all modern areas of Applied Chemistry, as well as in inter-disciplinary areas like nanoscience and technology, high energy materials, polymer science and technology, energy and environment, solar cells etc.

The first PhD of DIAT (DU) was from the Department of Applied Chemistry and currently the department is guiding the highest number of PhD scholars in DIAT. In addition to PhD, there are numbers of M. Tech. students carrying their PG education. We provide a vibrant and creative learning environment for our students and researchers. We also participate extensively in R&D for various DRDO labs and industries. The Department has highest number of research publications. In recent times, Applied Chemistry Department has been among the highest revenue generation departments through grant-in-projects and customized courses. At present there are eight sponsored projects running in the department.

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M. Tech. Chemical Science & Technology

Brief Description: To impart in-depth and intensive training in theory, testing and practice of Chemical Science & Technology especially in High Energy Chemicals/Materials, Studies of Organic, Inorganic, Physical and Analytical Chemistry, including Polymers & Chemical Engineering to the young scientists of DRDO, other agencies of Ministry of Defence and fresh postgraduates /engineers. The programme covers wide range of courses related to the above areas.

Eligibility: M.Sc. in any branch of Chemistry, BE / B.Tech in Chemical Engg or BE/ B.Tech (Polymer Science) or equivalent degree.

Qualification: The qualification should have been obtained from any UGC recognized University/Deemed University/Institution in India. The candidates who are in the final semester of their degree are eligible to apply; However in such cases marksheet up to the last semester exam should be enclosed. Provisional certificate in such cases along with Marksheet of the final semester are required to be submitted before commencement of program i.e. before the admission.

Organization: M. Tech Programme in Chemical Science and Technology is a four semester course. In the first semester of the course, six theory courses and one lab course are offered at length. In the second semester, four theory courses and two electives are offered. In third semester three theory courses and a part of dissertation work is carried out, while in the fourth semester project work is a full time activity on a topic decided by the mutual consent of the student and the guide considering the interest, expertise and past experience of the candidate in the field. In addition, one course will have to be taken by the students in the fourth semester. The details of the courses offered under the programme are given below:

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Semester I

Contact hours/week Marks Sr. No.

Course Code Course L P

1 AC 601 Advanced Analytical Techniques 3 0 100

2 AC 602 Polymer Chemistry I 3 0 100

3 AC 603 Thermodynamics and Combustion process

3 0 100

4 AC 604 Chemical Process Design 3 0 100



7 AC 605 Lab. (Chemical Synthesis and Analysis)

0 2 50

Total 18 2 650

Semester II Contact

hours/week Marks Sl. No. Course Code Course L P Total

1 AC 606 Nano-Chemistry 3 0 100

2 AC 607 Polymer Chemistry II 3 0 100

3 AC 608 Bio-Chemistry 3 0 100

4 AC 609 Energetic Chemicals: Explosives and Pyrotechnics 3 0 100

5 Elective I 3 0 100

6 Elective II 3 0 100

Total 18 0 600

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Semester III Contact

hours/week Sl. No. Course Code Course L P Marks

1 AC 610 Computational Chemistry 3 0 100

2 AC 611 Chemistry of Rocket & Gun Propellants 3 0 100


4 AC 651 M. Tech. Dissertation I 6 200

Total 15 500

Semester IV

List of Electives

Sl. No. Course Code Course

Elective I

1 AC 612 Recent Advances in Chemistry

2 AC 613 Safety, Hazard Analysis and Management

3 AC 614 Catalysis

Elective II

1 AC 615 Chemical Reaction Engineering

2 AC 616 NBC warfare

3 AC 617 Chemistry of paints, pigments and varnishes

Contact hours/week

Sl. No.

Course Code

Course

L P

Marks

1 PG 601 Project Management 3 0 100 2 AC 652 M. Tech. Dissertation II 12 400

Total 15 500

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DEPARTMENT OF APPLIED MATHEMATICS

The Department of Applied Mathematics came into existence with the inception of Institute of Armament Studies in 1953 as Faculty of Applied Mathematics. The faculty constituted of three departments: (1) Applied Mathematics (2) Ballistics (3) Statistics. In 1991 the three departments merged into one naming it as Department of Applied mathematics.

Research Areas:

Bio-Mechanics

Boundary Layer Theory Computational Fluid Dynamics Fluid Flow through Porous Media Heat and Mass transfer Image Processing

Mathematical Modelling & Simulation Numerical Methods for PDEs

Finite Element Methods

Boundary Element Methods

Domain Decomposition Methods

M. Tech. Modelling & Simulation

Brief Description: Department of Applied Mathematics offers a two year M.Tech., programme in Modelling & Simulation. Aim of this course is to give in depth knowledge of various modelling and simulation techniques. The course is of two years duration where the student undergoes basic training in the subjects related to mathematical modelling & simulation through classroom teaching in the first and second year. During this period the student is also exposed to various simulation tools and practicals. The second year is the dissertation phase where the student works under the guidance of a recognized guide on a problem related to modelling and

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simulation. Course curriculum will be updated periodically to keep pace with contemporary technological advancement.

Eligibility: M.Sc. in Mathematics / Physics / Statistics / O.R. / Computer science (Provided mathematics is one of the subject at the graduate level), Bachelors Degree in Engineering / Technology of a recognized Institute University. Proficiency in computer programming is essential.

Organization: The programme is of four-semester duration. In first and second semester have six courses respectively including one lab in the first semester. In third semester have three courses and fourth semester have one course in addition to the dissertation work. In the first three semesters the student has an option to choose elective courses. In each of these semesters, for theory subjects there will be one mid semester examination and a final examination. Half yearly evaluation of the project takes place at the end of the third semester. At the end of the final semester he/she submits a thesis and makes a presentation about the project, which is evaluated by the Internal and External examiners. No credits will be counted for attending an audit course. The details of the courses offered under the programme are given below:

Semester I

Contact Hours/Week Marks Sl.No.

Course

Code Course Name

L P


2 AM 602 Mathematical Modelling & System Analysis 3 0 100

3 AM 603 Operations Research 3 0 100

4 AM 604 Statistical Techniques 3 0 100



7 AM 605 Simulation Tools Lab 0 2 50

Total 1 8 2 650

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Semester II

Contact Hours/week Sl.No.

Course

Code Course

L P Marks

1 AM 621 Advanced Modelling Techniques 3 0 100

2 AM 622 Discrete Event Simulation 3 0 100

3 AM 623 Linear and Nonlinear Systems 3 0 100

4 AM 624 Discrete Mathematics & Graph Theory 3 0 100


6 Elective III 3 0 100

Total 1 8 0 600

Semester III

Contact hours/week Sl.No.

Course

Code Course

L P Marks

1 AM 651 M.Tech Dissertation - 1 6 200

2 AM 653 Calculus of Variations and Integral Equations 3 0 100

3 AE 620 System Engineering 3 0 100

4 Elective - IV 3 0 100

Total 15 500

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Semester IV

Contact hours/week Sl.No. Course Code Course Name L P Marks

1 AM 652 M.Tech Dissertation - 2 12 400

2 PG 601 Project Management 3 0 100

Total 15 500

List of Electives

Sl. No. Course Code Course

Elective I

1 AM 606 Differential Equations & Linear Algebra

2 AM 607 Data Structures and Algorithm

3 CE 660 Advanced Computer Networks

4 EE 604 Digital Communication

5 ME 602 Advanced Fluid and Thermal Sciences

Elective II & III 1 AM 625 Digital Image Processing

2 AM 626 Advanced Numerical Methods I

3 AM 627 Statistical Modelling

4 CE 683 Network Centric Warfare

5 CE 685 High Performance Computing

6 EE 608 Radar Engineering

7 EE 613 Electronics Warfare

8 ME 607 Finite Element Method


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Elective IV

1 AM 654 Advanced Numerical Methods -II

2 AM 655 Tensor Analysis and Applications

3 CE 680 Data Mining Techniques

4 CE 681 Mobile Computing and Communications

5 EE 607 Digital Signal Processing

6 ME 656 Tribology

7 ME 658 Compressible Fluid Flow

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DEPARTMENT OF APPLIED PHYSICS

Department of Applied Physics is one of the leading departments in Defence Institute of Advanced Technology (DU). The department has six (6) faculty members contributing to teaching and research activities. This department runs an M. Tech programme on Laser and Electro Optics. In this course, the first year constitutes courses related to Lasers, Advanced Optics and Optical Fiber Technology.

The second year is devoted to projects including some general courses like system engineering and project management. All the projects have focus on frontier research areas mainly related to Defence Applications. Excellent laboratory infrastructure is available for Laser and Fiber Optics in the Department. 24 Ph.D. students are working for their doctoral degree in the fields of Nano Technology, Applications of Nano Materials, optical fibers and lasers. Several research projects sponsored by DRDO, Department of Science and Technology and Department of Biotechnology are in progress in the department at this juncture.

M.Tech. Laser & Electro Optics

Brief Description: The aim of this programme, is to train the sponsored candidates from Army, Navy, Air Force, DRDO Laboratories, Public Sector Undertakings and other departments in the field of lasers, fiber optics, electro-optics and photonics. The programme also intends to educate and train bright fresh students in the relevant field of technology to carry out challenging responsibilities in their future carrier.

Eligibility: The candidate should possess a Masters degree or equivalent in Physics/ Applied Physics / Electronics /Electronic Science or a B.E. / B.Tech. / B.Sc. (Engineering) degree or equivalent in Electronics / Electrical/Communication / Telecommunication / Electronics and Communication Engineering / Computer Science / Engineering Physics, M.Sc. in Computer Science with Physics and Mathematics at graduate level from a recognized

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university / institute / Deemed University with a minimum of second class. Departmental candidates, who are possessing AMIE / Grad IETE degree, are also eligible.

Organisation: The M. Tech. programme is of four-semester duration. In each of the first two semesters there are five courses and practical each. There will be a mid semester examination and a final semester examination for every course. Half yearly evaluation of the project takes place at the end of the third semester. At the end of the final semester the student submits a thesis and makes a presentation about the project, which is evaluated by the Internal and External examiners. Course syllabus has been updated periodically to keep pace with the contemporary technological advancement.

Semester I

Contact Hours/ Week Sl No




3 AP 601 Quantum Mechanics &Solid State Physics 3 0 100 4 AP 602 Applied Optics 3 0 100 5 AP 603 Fundamentals of Lasers 3 0 100 6 AP 604 Fundamental of Fiber Optics 3 0 100 7 AP 620 Lab in Fiber Optics and Lasers 2 50

Total 18 2 650

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Semester II

Contact Hours/ Week Sl No


1 AP 605 Applications of Lasers 3 0 100

2 AP 607 Application of Fiber Optics 3 0 100




6 Elective IV 3 0 100

Total 18 0 6

Semester III

Contact Hours / Week Sl.

No. Course Code Course L P

Marks



3 Elective V 3 0 100

4 AP 651 M Tech Dissertation- I 6 200

Total 9 6 500

Semester IV

Contact Hours /Week

Sl. No.

Subject Code

Subject Name

L P

Marks

1 PG 601 Project Management 3 0 100 2 AP 652 M.Tech Dissertation II 12 400

Total 3 12 500

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List of Electives

Sr. No.

Course Code

Course

Elective I

1 AM 622 Discrete Event Simulation

2 EE 614 Satellite Communication

3 EE 619 Detection and Estimation Theory

4 AE 609 Missile Guidance

5 AE 610 Missile Control

6 EE 617 Advanced Electronics

Elective II & III 1 AP 606 Advanced Optics

2 AP 608 Nanotechnology

3 AP 609 High Power Lasers

4 AM 625 Digital Image Processing


6 MS 614 Advanced Functional Materials

Elective IV & V 1 MS 603 Materials Characterization

2 CE 660 Advance Computer Networks

3 EE 604 Digital Communication

4 AM 606 Differential Equation and Linear Algebra

5 EE 609 EMI/EMC

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DEPARTMENT OF BIOSCIENCES AND TECHNOLOGY

Department of Biosciences and Technology is the most recent addition in the academic units with the aim to provide research and education in Biosciences at DIAT (DU) and to foster interdisciplinary research. The vision of the department is to develop a hybrid community of engineering and biosciences through collaborative efforts of DRDO and DIAT. The primary mandate and major focus of these efforts is to cater to the requirements of Indian soldiers regarding their health, safety and wellbeing.

All faculty members are working towards developing the state of the art facilities for teaching and research. Department is engaged in providing research training and education at postgraduate and doctoral levels in Biosciences and Bioengineering. The focus of research programs will be in the areas broadly suggested as Nano-biotechnology, Drug Delivery, Bio-sensing, Biomaterials, Tissue Engineering, Proteomics and Computational Biology pertaining to Defence applications.

P.G. Diploma in Biosciences & Engineering

Brief Description: The Post Graduate Diploma program in Biosciences and Engineering has started with following Mandate

To develop a hybrid community of engineering and biosciences through collaborative efforts of DRDO and DIAT

Classroom and Research components

Practice-oriented course prepares for exciting and fulfilling careers in biomedical discovery, research and development.

To create a strong, broad-based foundation in health sciences, industrial technology and basic research for maximizing career and higher education options.

Eligibility: Eligibility criteria for P.G. Diploma is B.E./B. Tech. or Masters degree in Life sciences / Physics / Chemistry / Mathematics / Biomedical engineering / Biotechnology /

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Pharmacy / Bioinformatics / Related disciplines, OR B.Sc. minimum 2 years experience of working in R&D institution or diagnostic laboratory.

Organization: The Post Graduate Diploma in bioscience and Engineering is a two-semester (one year) program. The first semester comprise of five core courses and one elective while the second semester has two core courses and three elective courses. Five practical / laboratory courses are also the part of second semester. There will be a mid semester examination and a final semester examination for every course. The performance of the students will also be evaluated by the surprise tests, seminars and classroom assignments. Along with the Laboratory course, students are expected to carry out a short project/assignment given by the instructor. Course syllabus will be updated periodically to keep pace with the contemporary technological advancements.

Semester I Contact Hours/week Sl.

No. Course Code

Course L P

Marks

1 BT 501 Cell Biology & Human Physiology 3 0 100

2 BT 502 Microbiology, Immunology & Genetics 3 0 100

3 BT 504 Computational Biology & Bioinformatics 3 0 100

4 BT 506 Biomaterials & Tissue Engineering 3 0 100

5 BT 507 Biomedical Safety, Standards & IPR 3 0 100

6 Elective I 3 0 100 Total 18 0 600

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No. Course Code

Course L P

1 BT 503 Mathematics and Biostatistics 3 0 100

2 BT 505 Fundamentals of Biomedical instrumentation and analytical tools 3 0 100

3 Elective II 3 0 100 4 Elective III 3 0 100 5 Elective IV 3 0 100 6 BTL 551 Microbiology 0 3 20 7 BTL 552 Animal Tissue Culture 0 3 20 8 BTL 553 Analytical Biochemistry 0 3 20 9 BTL 554 Molecular Biology 0 3 20

10 BTL 555 Bioinformatics 0 3 20 Total 15 15 600

List of Electives

Sl. No. Course Code Course Elective I

1 BT 511 Nano-biotechnology

2 BT 512 Biotechnological Diagnostic Tools

Elective II

1 BT 513 Life Support Technologies

2 BT 515 Food Processing Technology

Elective III

1 BT 514 Drug Development

2 BT 516 Crop Production, Crop Diseases & Pest Control

Elective IV

1 BT 517 Biomedical Physics & Biomechanics

2 BT 518 Biosensors & Bioelectronics

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DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING

The department of Computer Science and Engineering was established in 1987. The department of Computer Engineering offers M. Tech. and Ph.D. programs for DRDO scientists, tri-services and GATE qualified students. Currently there are 06 faculty members in the department. Three faculty members have PhD degrees and three are pursuing the PhD programs in DIAT. Currently, the department has 6 PhD research scholars and 30 M.Tech. students.

The thrust areas of the department are Cyber Security, Digital Forensics, Cyber Warfare, Network Centric Warfare, Cryptography, Network Security, Information Security Management Systems, Pattern Recognition, SAR Imaging, Knowledge Discovery and Data Mining, Trusted Computing, Secure Software Engineering, Cloud Security, Program Analysis, Malware Analysis, High Performance Computing, Soft Computing, Modeling and Simulation, Social Network Analysis, etc.

The Department has conducted a workshop on Ethical Hacking and a two day National Conference on Cyber Security during 2012. The National Conferene on Cyber Security was co-sponsored by Microsoft, Cisco, DRDO, Cyberom etc.

The department of Computer Engineering is associated with the data center activities which facilitate the email, internet, web hosting, etc to the DIAT campus. The establishment of National Knowledge Network facility and wi-fi connectivity in DIAT are two important initiatives of Computer Engineering department. All the services related to its use are provided by the department to DIAT.

The M. Tech. degree in Computer Science and Engineering had started in the academic year 2009 and the two batches have passed out till June 2012. The department has started M. Tech. with specialization in Cyber Security since July 2011. The first batch passed out in June 2013. Overall, 39 students have graduated with M.Tech. degree from the department till now. The department has very good relations with industry, DRDO labs and other academic institutes, hence has a strong placement record.

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M.Tech. Computer Science & Engineering (Cyber Security)

Brief Description: Communication networks and information systems have become an essential factor in economic, social development and almost in every facet of our daily lives. Information systems are vulnerable to one or more types of cyber attacks. The security of communication networks and information systems and their availability in particular, is therefore of increasing concern. In general, cyber security threats are increasing rapidly, the incidents range from defaced websites to theft of large volumes of intellectual property and money, to even Internet crimes. Cyber security is now a prominent field of study. Professionals who are trained in this field are highly regarded and contribute to strengthening the social, political and financial fabric of modern society.

The domain of cyber security refers to the collection of tools, policies, security concepts, guidelines, risk management approaches, actions, training, best practices, assurance and technologies that can be used to protect the cyber environment, organization and users assets. To survive in an Information Centric Warfare scenario, the tools and techniques of cyber security will provide mechanisms to safeguard the critical systems against related threats & attacks.

In this context, new information centric complex systems require highly skilled manpower, not only to research, design, develop and test reliable secure systems but also to: install, deploy, utilize & maintain them throughout their lifespan.

The programme aims at developing Human Resource in the field of Cyber Security with a thrust on defence related problems. The present programme is conceived to understand, assimilate & use the advanced technologies to design and develop secure systems, comprehend different types of cyber attacks, methods and technologies to develop secure IT infrastructure.

Advanced technologies from four different domains such as Network security, Cryptography, Digital Forensic and Trusted Computing techniques have been selected. The course also introduces the concepts of Network Centric Warfare and Information Security Management Systems. After completing this course, students are expected to understand and practice the essential concepts related to Information Security, Incident Responses, Digital Evidence Analysis, Cyber Attacks, Design and Development of secure systems.

33

Eligibility: BE/B.Tech. in Computer Science/Electronics/Electrical/Communication/Information

Technology or M.Sc. in Computer Science.

Organization: Programme curriculum has been designed and reviewed by panel of experts chosen from various DRDO labs and leading academic institutions. Each of the subjects is delivered by subject experts and consists of 42 hours of interaction. During the course, continuous assessment of student would be carried out. Each theory course has a mid-semester exam (30 marks), internal assessment (20 marks) and final examination (50 marks). During the Laboratory course, students are expected to carry out mini project/assignments given by the instructor. The third and fourth semester has a major component of dissertation work, where students are closely supervised by guide. Students are expected to submit their thesis and present their work to be evaluated by panel at the end of fourth semester.

Semester I

Contact Hours/ Week Sl. No. Course Code Course

L P Marks

1 CE 660 Advance Computer Networks 3 0 100

2 CE 661 Fundamentals of Information

Security 3 0 100

3 CE 662 Network Security Lab 0 2 50

4 MS 601 Materials for Defence

Applications 3 0 100


6 Elective- I 3 0 100

7 Elective- II 3 0 100

Total 18 2 650

34

Semester II

Contact Hours/ Week Sl. No. Course Code Course L P

Marks

1 CE 663 Modern Cryptography 3 0 100

2 CE 664 Network Security 3 0 100

3 CE 665 Security Standards and Audits 3 0 100

4 CE 666 Verification and Validation 3 0 100



Total 18 600

Semester III

Contact Hours/ Week Sl. No. Course Code Course L P Marks

1 CE 667 Trusted Computing 3 0 100

2 CE 668 Cyber Security Laws 3 0 100


4 CE 651 M.Tech. Dissertation -1 6 200

Total 15 500

Semester IV

Contact Hours/ Week Sl. No.

Course Code Course L P

Marks

1 PG 601 Project Management 3 0 100 2 CE 652 M.Tech. Dissertation -2 12 400

Total 15 500

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List of Electives

Sl. No.

Course Code Course

Semester I (Elective-I and Elective-II)* 1 CE 680 Data Mining Techniques

2 CE 681 Mobile Computing and Communications

3 CE 682 Secure Software Engineering

4 AM 604 Statistical Techniques

Sl. No.

Course Code Course

Semester II (Elective-III and Elective-IV)* 1 CE 683 Network Centric Warfare

2 CE 684 Digital Forensics

3 CE 685 High Performance Computing

4 CE 686 Network System Design

*Other electives offered by different departments can be opted with consultation of Program Coordinator

36

DEPARTMENT OF ELECTRONICS ENGINEERING

The Department of Electronics Engineering offers M. Tech in Electronics Engineering (Radar and Communication), M Tech (Signal Processing and Communication), M.S. (by Research), and PhD programs. The research areas of the department include the areas of microwave and millimeter wave, antenna design, wave propagation, signal processing for radar and secured communication, embedded systems, EMI/EMC, VLSI design and FPGA, microprocessor and microcontroller etc. The Department has initiated research facilities for synthetic aperture radar (SAR), under-water imaging, and bio-medical electronics.

The Department runs regular short term courses for defense scientists, service officers and technical officers. The department also organizes regular advanced courses on digital signal processing for scientists from various DRDO labs and other research organizations, engineers, service officers, people from industries and also faculty of engineering institutions. Faculties in the Department are active in publication of their research efforts in reputed international journals and peer-reviewed conferences. Effective collaboration with industry is maintained in regular testing and calibration of their equipments for meeting EMI/EMC specification.

M.Tech. Electronics Engineering (Radar & Communication)

Brief Description: A thoroughly revised and reviewed M. Tech (Radar and Communication) program is offered for state-of-theart technical training of the defense sector. This program is for selected technical officers of the three services, defense R&D organizations as DRDO, DGOF, MSQA, CGQA and Public Sector Undertakings. A limited number of seats will also be open for civilian GATE qualified candidates, and friendly foreign countries from academic year 2010 onwards. The program offers a wide choice of specializations, electives and research areas. Course curriculum will be updated periodically to keep pace with contemporary technological advancement.

37

Eligibility: B. E. / B. Tech degree in Electronics / Communication / Instrumentation Engineering from any recognized university. Selection Criteria: Selection of the candidates for the course will be based on interviews in DIAT (DU) as per procedure laid out for the M Tech programs.

Organization: The program is designed as four-semester course. In the first semester there are six core courses and one practical lab. Apart from the courses on Microwave engineering, Digital Signal Processing, Antenna Theory and Techniques, and Digital Communication, the students are taught Advanced Mathematics and Materials for Defence Applications. In the Second Semester, there are three core courses i.e., Electronic Warfare, Radar Engineering, Embedded Systems and three electives. In each of these semesters, there will be a mid semester examination and a final semester examination of every course. Second year is mainly devoted for M Tech Dissertation along with two courses and an elective in the third semester and a core course on Project Management and Dissertation in the fourth semester. Half yearly evaluation of the project takes place at the end of the third semester. At the end of the final semester, he/she submits a thesis and makes a presentation about the project, which is evaluated by the committee of examiners.


No. Course Code

Course L P

Marks

1 EE 601 Microwave Engineering 3 0 100

2 MS 601 Materials for Defence Application 3 0 100


4 EE 604 Digital Communication 3 0 100

5 EE 606 Antenna Theory and Techniques 3 0 100

6 EE 607 Digittal Signal Processing 3 0 100

7 EE 632 Lab Practical 0 2 50

Total 18 2 650

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No. Course Code

Courses L P

1 EE 605 Embedded Systems 3 0 100

2 EE 608 Radar Engineering 3 0 100

3 EE 613 Electronic Warfare 3 0 100

4 Elective-I* 3 0 100

5 Elective-II* 3 0 100

6 Elective-III** 3 0 100

Total 18 0 600

* 1. Two Elective subjects to be chosen from Group-I and Group-II respectively offered from EE Department.

*2. The third Elective subject may be chosen from Group-I or Group-II . **3. Apart from these electives, the students can choose any other electives offered by

any other department in consultation with the Program Coordinator.

Semester III Contact Hours /week Sl

No. Course Code

Course L P

Marks

1 EE 609 Electromagnetic Interference/Electromagnetic Compatibility EMI/EMC

3 0 100


3 Elective-IV** 3 0 100

4 EE 651 M.Tech. Dissertation-1 6 200

Total 15 500

**The Elective to be chosen from list of Electives in Group-III. Apart from these electives, the students can choose any other electives offered by any other department in DIAT in consultation with the Program Coordinator.

39


No. Course Code

Course L P

Marks

1 PG 601 Project Management 3 0 100 2 EE 652 M.Tech.Dissertation-2 12 400

Total 15 500

List of Electives

Sr. No.

Course Code

Course

Elective I

1 EE 612 Advanced Wireless Communication

2 EE 619 Detection and Estimation Theory

3 EE 617 Advanced Electronics



Elective II

1 EE 618 DSP System Design( Lab Oriented) 2 EE 614 Satellite Communication


4 AP 605 Application of Lasers

5 AP 608 Nanotechnology

Elective III

1 ME 604 Systems Dynamics and Control

2 AP 602 Applied Optics

3 AP 603 Fundamentals of Laser

4 AP 604 Fundamentals of Fibre Optics

5 AM 606 Differential Equations and Linear Algebra

6 CE 660 Advanced Computer Networks

7 EE 676 Electro-optic Systems

40

M.Tech. Defence Electronic Systems

Brief Description: Electronic systems play a vital role in various defence related applications such as Radar, Sonar, anti-aircraft missile system, tracking and navigation, control systems for missiles, etc. Thus as the technology progresses in the electronics domain, the sophistication of the defence electronic systems grows rapidly, thus requiring that those who analyze, design, develop and maintain them should have mastery over defence electronic systems. This motivated the Department of Electronic Engineering to introduce the M.Tech Program (Defence Electronic Systems). The core focus of this program will be:

Rigorous Analysis of Electronic systems in Defence utility

Electronic system design, development and implementation\

Demonstration of Electronic systems as project assignment Practicing Scientist and service officers as input

Eligibility: Ist class B.E./B.Tech degree in Electronics/Communication/Instrumentation Engineering from any recognized university, or Ist class M Sc Degree in Electronics and Physics specialized in Electronics from any recognized university. The core intake will be sponsored candidates from Defense R&D Organizations as DRDO, DGOF, Public Sector Undertakings and service officers who meet the eligibility criteria mentioned above.

Organization: The program will be of four-semester duration and is fully residential. In the first semester, there are six core courses and one lab course. In the second semester, there are three core courses and three electives. In each of these semesters, there will be a mid-semester examination and a final semester examination for every course. Third and Fourth semesters are mainly for project work. Apart from the project work, students have to study 3 courses in third semester and two courses in final semester. Half yearly evaluation of the project takes place at the end of the third semester. At the end of the final semester, the student submits a thesis and makes a presentation on his/her dissertation work, which is evaluated by the committee of examiners.

41



Marks

1 EE 675 Communication Systems 3 0 100

2 MS 601 Materials for Defence Application 3 0 100

3 EE 607 Digital Signal Processing 3 0 100

4 EE 674 Microwave and Radar Systems 3 0 100

5 EE 676 Electro Optic Systems 3 0 100


7 EE 632 Lab Practical 0 2 50

Total 18 0 650



1 EE 673 Navigation and Avionic Systems 3 1 100

2 EE 625 Electronics Sensors 3 1 100

3 EE 613 Electronic Warfare 3 1 100

4

Elective-I 3 0 100


6 Elective- III 3 0 100

Total 18 0 600

*3Electives can be chosen preferably from EE Dept. Minimum 2 electives from EE Dept is Mandatory.


No. Course Code Course L P Marks

1 EE 651 M.Tech Dissertation I 0 6 200


3 EE 605 Embedded Systems 3 0 100


Total 9 6 500

42


No. Course Code

Course L P

Marks

1 EE 652 M.Tech Dissertation II 12 400

2 PG 601 Project Management 3 0 100 Total 15 500

List of Electives

Sl. No. Course Code Course Electives I, II and III

1 EE 609 EMI/EMC

2 EE 612 Advanced Wireless Communication

3 EE 614 Satellite Communication

4 EE 606 Antenna theory and Techniques


6 EE 618 DSP System Design-lab oriented course

7 EE 677 Sonar Systems

8 CE 660 Advanced Computer Network

9 EE 678 Sonar Signal Processing

Elective IV

Elective IV to be chosen from courses offered outside the dept in consultation with the program Coordinator.

43

M.Tech. Electronics Engineering (Signal Processing & Communication)

Brief Description: A thoroughly revised and reviewed M.Tech (Signal Processing and Communication) program is to be offered for state-of-theart technical training of the defense sector. Previously this programme was offered by the Naval Wing Department of DIAT (DU). From the academic year 2012-13, the programme is run by Electronics Engineering Department. This program is offered to selected technical officers of the tri-services, defense R&D organizations including DRDO, DGOF, MSQA, DGQA, CGQA and Public Sector Undertakings. The program offers a wide choice of specializations, electives and research areas. Course curriculum will be updated periodically to keep pace with contemporary technological advancement.

Eligibility: B. E. / B. Tech degree in Electronics / Communication / Instrumentation Engineering / Electrical Engineering (Electrical Engineering- only for officers from the defence services and DRDO) from any recognized university. Selection Criteria: Selection of the candidates for the course will be based on interviews in DIAT (DU) as per procedure laid out for the M. Tech. programs.

Organization: The M.Tech (Signal Processing and Communication) is of four semester programme in which candidates will study ten core courses, six elective courses, one lab course, dissertation-1 and dissertation-2. In each of these four semesters, there will be a mid- semester examination and a final semester examination of every course. Second year is mainly devoted for M Tech Dissertation along with two core courses and two electives. Half yearly evaluation of the project takes place at the end of the third semester. At the end of the final semester, he/she submits a thesis and makes a presentation about the project, which is evaluated by the committee of examiners.

44


No. Course Code

Courses L P

Marks

1 NW 602 Signal Theory &Processing 3 0 100


3 EE 604 Digital Communication 3 0 100

4 EE 602 Microwave &Antenna Systems 3 0 100


6 Elective- I 3 0 100

7 NW 620 Sig Process Sys development Lab-1 3 2 50

Total 18 2 650


No. Course Code

Course L P

1 EE 603 Radar & Electronic Warfare 3 0 100

2 NW 604 Digital Signal Processing & App 3 0 100

3 NW 614 VLSI & DSP Systems 3 0 100




Total 18 0 600


No. Course Code

Course L P

Marks


2 Elective- V 3 0 100

3 Elective VI 3 0 100

4 EE 651 Dissertation - 1 6 200

Total 9 6 500

45


No. Course Code

Course L P

Marks

1 PG 601 Project Management 3 100 2 EE 652 Dissertation -2 12 400

Total 3 12 500

List of Electives Sr. No. Course Code Course

Elective I

1 NW 601 Sonar System

2 AP 604 Fundamental of fiber Optics

3 CE 661 Fundamentals of Information Security

Elective II,III& IV 1 NW 603 Sonar Signal Processing

2 AP 607 Application of fiber Optics

3 CE 663 Modern Cryptology

4 CE 681 Mobile Computing & Communications

5 AE 610 Missile Control

6 EE 619 Detection & Estimation Theory


8 EE 612 Advanced Wireless Communication Elective V & VI

1 EE 609 EMI/EMC (Electromagnetic Interference/Electromagnetic Compatibility) 2 AE 617 Flight Instrumentation 3 AE 615 Nonlinear and robust control 4 AE 619 Avionics 5 CE 660 Advance Computer Networks

6 AP 602 Applied Optics

7 AP 605 Application of Lasers

46

DEPARTMENT OF MATERIALS ENGINEERING

The Department of Materials Engineering, which started in 1985 under the name of Faculty of Metallurgy, was recently rechristened to its present name in 2010. The

Department is striving to create a vibrant atmosphere for education and research in all the areas of materials science and engineering. Towards achieving this, the Department is

imparting education and training to DRDO Scientists, Service officers and scholarship students through its various academic programs, viz., M. Tech, MS and PhD and by participating extensively in R&D activities for various DRDO labs, like, ASL, DMRL, NMRL, DMSRDE, ADE, DEBEL and NPOL, and Industries.

Currently, the Department is endowed with highly competent faculties who have come from various world class industries and academic institutes with wide research and

development experiences. Presently the department is aiming to contribute significantly in the research output in terms of scientific papers and technology developments in the areas of many strategic and advanced materials like intelligent textiles, biosensors, electrospinning technique, magnetic materials, engineering adhesives, structural composites, nanocomposites,

hybrid supercapacitors, functional materials, multilayer thin films, biomaterials for prosthetics, tissue engineering, plastics processing, piezoelectric materials, super critical

foaming technology and rapid prototyping for Defence, Aerospace and other engineering applications.

The Department has been sanctioned several projects funded by Ministry of Defence and Department of Science and Technology (DST). At present several students pursuing their PhD in the proposed research projects. The faculties also extensively collaborate with the Universities and various Organizations in the UK, USA, Taiwan, Singapore and Israel. During the next five years the Department is envisioning to create a Center of Excellence in Materials Research.

Mission: To provide unique, customized material solutions to Defence sector.

The Vision: To be a world class Center for Materials Research".

47

M.Tech. Materials Science & Technology

Brief Description: M.Tech in Materials Science and Technology is a highly interdisciplinary masters programme, which has registered its modest beginning in the year

2011 with five students. Since then, the Programme is strengthened by increasing number of students with ten students being registered for ongoing academic year. The aim of the

programme is to impart training students in the cutting-edge technologies of materials science and technology, and related areas through innovative teaching and project work with a special emphasis on Defence technologies and applications. The programme comprises students from DRDO fraternity, tri-services and GATE qualified individuals. Through this programme, the

students are encouraged to choose project topics on advanced research areas; like, intelligent textiles, biosensors, magnetic materials, engineering adhesives, structural composites,

nanocomposites, hybrid supercapacitors, piezoelectric materials, functional materials, multilayer thin films, plastics processing, and piezoelectric materials.

Eligibility: B.E / B. Tech./ M.Sc or Equivalent in Metallurgy / Materials Science / Materials Engg / Mechanical Engineering / Ceramic Engg / Polymer Engg/ Nano- Technology / M. Sc. Or Equivalent in Physics / Chemistry.

Organization: The programme will be of four-semester duration and is fully residential. There are 16 courses and one laboratory/seminar offered in four semester duration. In each of these semesters, there will be a mid-semester examination and an end semester examination for every course. The second year of the programme will be primarily devoted for dissertation work. In the second year, half yearly evaluation of the dissertation work

would take place at the end of the third semester. At the end of the final semester, the student submits a thesis and makes a presentation on his/her dissertational work, which will be

evaluated by a committee of examiners. The details of the courses offered under the programme are given below:

48



Marks

1 MS 602 Physical & Mechanical Metallurgy 3 0 100

2 MS 603 Materials Characterization 3 0 100

3 MS 609 Design and Selection of Materials 3 0 100

4 AM 601 Essential Advance Mathematics 3 0 100



7 MS 620 Metallography Laboratory 0 4 50

Total 18 4 650


No. Course Code Course L P

1 MS 605 Polymers, Ceramics and Composites 3 0 100

2 MS 608 Fatigue, Fracture and Failure Analysis 3 0 100

3 MS 610 Non Destructive Evaluations 3 0 100

4 MS 614 Advanced Functional Materials 3 0 100

5 MS 612 Materials for High Temp. Applications 3 0 100


Total 18 0 600

Semester III

Contact Hours /week Sl No.


1 MS 607 Heat-treatment 3 0 100

2 MS 604 Corrosion and Control 3 0 100


4 MS 651 Dissertation Project 06 200 Total 15 500

49


No. Course Code

Course L P

Marks

1 PG 601 Project Management 03 0 100 2 MS 652 Dissertation Project 12 400

Total 15 500

List of Electives

Sl. No.

Course Code

Course

Elective I

1 MS 606 Materials Processing I

2 AC 603 Thermodynamics and Combustion process

Elective II

1 MS 613 Materials Processing II

2 AP 608 Nano Technology

3 AC 609 Energetic Chemicals: Explosives and Pyrotechnics

50

DEPARTMENT OF MECHANICAL ENGINEERING

The Mechanical Engineering Department covers various mechanical engineering

disciplines and reaches out into a wide variety of application areas including armaments,

combat vehicles, marine engineering, space, control, and many others. The department has good number of faculty strength and have exposure with abroad experience in various

research areas such as Self healing composite structures, Impact dynamics of composite structures, Repairing technology and Life assessment of composite structures, Mechanical behavior of materials for Defense applications, High speed machining/green machining of aerospace materials, CFD, Two-Phase Flow, Vehicle dynamics and Condition monitoring etc.

The department is well equipped with high end research facilities viz. miniature gas

turbine test facility, PIV system, High Performance Computing facility in mechanical system design and analysis and, the department possessed many updated softwares on modeling, analysis and design of machines and mechanisms. Department has successfully completed many outstanding research and development projects with an importance to defence such as CFD analysis of HP turbine of Kaveri engine, FE analysis of suspension system of ICV Abhay and long range mortar (120 mm) etc. Also, the department is aiming to carry out R & D projects on Ballistic Penetration of Armour materials, Design and Development of Spar Wingskin Joint for Integral Structural Construction of Aircraft wings, Development of nanofiller (NF)/polymer composites for armour applications and Structural integrity studies on LP spool for Small Turbo Fan Engine in future.

The Department has carried out significant curriculum development work in

Mechanical Engineering. User-oriented M. Tech programmes on Armament/Combat Vehicles and Marine Engineering has been formulated as per the needs of the Defence sector. The Programmes offers a wide choice of specializations, electives and research areas. The department has laboratories in CAD/CAM, Vibration, Experimental Stress Analysis, Heat

Transfer and Fluid Power.Apart from the regular courses the department offers, on a continual basis, a wide variety of short-term intensive programmes for personnel from DRDO

laboratories, Armed Forces and industrial establishments.

51

M.Tech. Mechanical Engineering (Armament/Combat Vehicles )

Brief Description: DRDO has been involved in the design and development of efficient and economical Combat Engineering & Armament Systems for Indian Armed Forces. The programme is designed to provide students with the principles of Combat Vehicle

Technology and Armament Engineering. The programme pays special attention to:

the study of advances in combat vehicle technology and armament engineering developing skills in the analysis and evaluation of new concepts against changes and

developments in the threat the user requirements needed to meet the threat and its implications.

This programme is open for civilian GATE qualified candidates, DRDO Scientists/Officers

and Officers from Tri-services. This programme is also open to friendly foreign countries.

Eligibility: The eligibility for the postgraduate programme will be B.E./B. Tech degree in Mechanical or Automobile Engineering from recognized university.

Organization: The M. Tech. programme is of four-semester duration. In each of the first two semesters there are five courses and practical each. There will be a mid semester examination and a final semester examination for every course. Half yearly evaluation of the project takes place at the end of the third semester. At the end of the final semester the student submits a thesis and makes a presentation about the project, which is evaluated by the Internal and External examiners. Course syllabus has been updated periodically to keep pace with the contemporary technological advancement. The details of the courses offered under

the programme are given below:

52

Semester I Contact Hours/ week

Sl. No Course Code Course L P Marks



3 ME 601 Advanced Mechanics of Materials 3 0 100

4 ME 602 Advanced Fluid & Thermal Sciences 3 0 100

5

ME 6031 or AW 6012 or ARE 6013

Mechanical Vibrations1 or Military Vehicle Power Plant2 or Ballistics of bombs and projectiles3

3 3 3

0 0 0

100 100 100

6 ME 604 System Dynamics and Control 3 100

7 ME 605 Lab in Mechanical Engineering 2 50

Total 18 2 650 1 For DRDO Scientists and Fellowship students, 2 or 3 For Service Officers (depending on the

specialization)

Semester II Contact Hours/ week


1 ME 606 Design of Machinery 3 0 100

2 ME 607 Finite Element Methods 3 0 100

3 ME 608 Computational Fluid Dynamics 3 0 100




Total 18 600

53

Semester III

Contact Hours/ week Sl.

No Course Code Course L P Marks


2

ME 6531 or

AW 605 2 or ARE 605 3

Advanced Materials and their Processing1 or Tank, weapons and Armour2 or Weapon Thermodynamics, Heat Transfer and Weapon Dynamics3

3 3 3

0 0 0

100 100 100

3 Programme Elective IV 3 0 100

4 ME 651 M Tech Dissertation- I 6 200

Total 15 500 1 For DRDO Scientists and Fellowship students, 2 or 3 For Service Officers (depending on the

specialization)

Semester IV Contact Hours/ week


1 PG 601 Project Management 3 0 100 2 ME 652 M Tech Dissertation- II 12 400

Total 15 500

List of Electives

Sr. No.

Course Code

Course

Elective I, II & III: Combat Vehicles

1 ME 609 Armoured Fighting Vehicle and Weapon Systems (Compulsory for CVRDE)

2 ME 610 Automotive Systems for Wheeled & Light

Tracked Vehicles (for VRDE) 3 ME 611 Virtual Design of Military vehicles

4 ME 612 AFV Surveillance, Gun and Fire Control Systems

54

5 ME 613 Armour Protection Systems

6 ME 614 Unmanned Ground Vehicles

7 ME 615 Trials & Evaluation of Weapon Systems

8 ME 616 Product Design and Development

9 ME 617 Mechatronics

10 AW 602* Combat Vehicle Technology

11 AW 603* Vehicle System Engg

12 AW 604* Vehicle Dynamics

Elective I, II & III: Armaments

1 ME 618 Weapon System Technology (Compulsory for ARDE)

2 ME 619 Warhead Mechanics

3 ME 620 Ballistics and Aerodynamics of Projectiles (for ARDE)

4 ME 621 High Energy Material Technology

5 ME 622 Dynamics & Armament Mechanisms

6 ME 615 Trials & Evaluation of Weapon Systems

7 ME 616 Product Design and Development

8 ME 617 Mechatronics

9 ARE 602* Design of ordnance, basic structure and super structure

10 ARE 603* Ammunition

11 ARE 604* Small arms and cannons

Elective IV: Armaments and Combat Vehicle 1 ME 654 Advanced Theory of Mechanisms

2 ME 655 Advanced Composite Structures

3 ME 656 Tribology

4 ME 657 Thermal Management of Defence

Equipment

5 ME 658 Compressible Fluid Flow

6 ME 659 Theory of Combustion

7 ME 660 Manufacturing Considerations in Design

8 ME 661 Fluid Power Systems (For R&D Engrs)

55

M.Tech. Mechanical Engineering (Marine)

Brief Description: The aim of the programme is to impart advanced training and to update knowledge in the field of design, development, quality assurance and Inspection of Marine equipments to engineering officers from Indian Navy. At the end of the programme the officer should be able to undertake R&D work and/or inspection, testing and evaluation of Marine Engineering Equipment systems. Visits to various DRDO labs, Industry involved

with Indian navy and naval technical facility are planned to enhance students appreciation & understanding of the subject and provide them with opportunity to get hands on experience on various test equipment and procedures related to design, manufacturing and testing of Marine Engineering Equipments.

Eligibility: Bachelors Degree in Mechanical/Marine Engineering of a recognised Institute/University.

Organisation: M. Tech Mechanical Engineering with specialisation Marine Engineering is a four-semester programme. In each of the first two semesters there are six courses and practical/seminar each. In each of these semesters, there will be a mid semester examination

and a final semester examination of every course. In third semester, there are three courses and fourth semester, one course in addition to the dissertation work. Half yearly evaluation of the project takes place at the end of the third semester. At the end of the final semester, student submits a thesis and makes a presentation about the project, which is evaluated by the Internal and External examiners. Course syllabus has been updated periodically to keep pace with the contemporary technological advancement. The details of the courses offered under

the programme are given below:

56

Semester I

Contact Hours/Week Sl.No.

Course Code

Courses L P

Marks

1 ME 601 Advanced Mechanics of Materials 3 0 100

2 ME 602 Advanced Fluid & thermal Sciences 3 0 100

3 ME 603 Mechanical Vibration 3 0 100 4 AM 601 Advance Mathematics 3 0 100


6 NW 611 Automatic Control Systems 3 0 100 7 ME 649 Vibration & MATLAB 0 2 50

Total 18 2 650

Semester II

Contact Hours/Week Sl. No.

Course Code

Courses L P

Marks

1 ME 606 Design of Machinery 3 0 100

2 ME 607 Finite Element methods 3 0 100

3 ME 608 Computational Fluid Dynamics 3 0 100

4 NW 605 Marine Diesel & Steam Engines - Design & Performance 3 0 100

5 NW 606 Marine Gas Turbines- Design & Performance 3 0 100

6 NW 607 Ship Dynamics & Marine Systems Installation 3 0 100

7 NW 642 Lab/Seminar (Audit) 0 0 0 Total 18 0 600

57

Semester III

Contact Hours/Week Sl. No. Course Code

Courses L P

Marks

1 NW 608 Warship Transmission Design &

Tribology 3 0 100

2 NW 619 Nuclear Reactor Engineering 3 0 100


4 NW 651 M.Tech Dissertation - 1 6 200

Total 15 500

Semester IV

Contact Hours/Week Sl. No.

Course Code

Courses L P

Marks

1 PG 601 Project Management 3 0 100 2 NW 652 M.Tech Dissertation - 2 12 400

Total 15 500

58

Syllabus of Courses Offered by Departments

59

Department of Department of Department of Department of

Aerospace EngineeringAerospace EngineeringAerospace EngineeringAerospace Engineering

60

DEPARTMENT OF AEROSPACE ENGINEERING

AE 601 Aerodynamics

Incompressible flow: Introduction, Governing equations of fluid flow, Flow kinematics, Elementary flows, Non-lifting and lifting flows, Flow over airfoils, Kutta-Joukowski theorem, Kelvins theorem, Thin airfoil theory, Flow over finite wings, Prandtls lifting line theory, Viscous fluid flow, Boundary layer theory, Some exact solutions of boundary layer equations.

Compressible flow: Introduction, Normal shock waves, Oblique shock and expansion waves, Prandtl-Mayer waves, Shock-Expansion Theory, Compressible flow through nozzles and diffusers, Compressible flow over airfoils, Compressible flow over finite wings.

Texts/References: 1. John D. Anderson, Fundamentals of Aerodynamics, McGraw-Hill, 6th Edition (2008) 2. B. W. McCormick, Aerodynamics Aeronautics and Flight Mechanics,. Wiley,

New York, 1979. 3. John D. Anderson, Modern Compressible Flows, McGraw Hill, 3rd Edition (2002) 4. E. L. Houghton, S. Collicut & P.W. Carpenter, Aerodynamics for Engineering

students, Butterworth-heinemann, 5th edition, 2003

AE 602 Elements of Propulsion

Classification and characteristics of various propulsive devices for aircraft and space applications. Thermodynamic cycle analysis and thrust equation. Quasi-one dimensional fluid flows. Propeller Theory. Introduction to various components of jet engine and their performance. Fundamentals of chemical rockets. Combustion and adiabatic flame temperature. Liquid propellant rocket engine- Classification of liquid propellants, propellant

chemistry. Injector and combustion chamber design. Cooling systems. Solid propellant rocket

61

engine- Classification of solid propellants. Solid propellant combustion mechanism and

burning rate laws. Grain design.

Texts/References: 1. George P. Sutton, Rocket Propulsion Elements, Wiley-Interscience; 7th edition, 2000 2. M. J. Zucrow, Aircraft and Missile Propulsion, vol 2, John Wiley, 1958 3. M. Barrere, Rocket Propulsion, Elsevier Pub. Co., 1960 4. M. J. Zucrow, Gas Dynamics, John Wiley & Sons; Volume 1, 1976 5. James E. A. John, Gas Dynamics, Prentice Hall, 3rd edition, 2006 6. P. Hill & C. Peterson, Mechanics & Thermodynamics of Propulsion, Prentice Hall,

2nd edition,1991 7. G. C. Oates, Aerothermodynamics of Gas Turbines and Rocket Propulsion, AIAA

Education Series, 1989

AE 603 Aerospace Structures

Review of development of Aerospace structural systems. Flight environments. Aerospace structural materials and stress-strain characteristics. Structural analysis methods-analytical and numerical. Elasticity approach to solution of structural problems and its limitations.

Displacement and force methods for analysis of skeletal systems. Bending and torsion of thin-walled members. Bending and buckling of thin plates and stiffened plates. Analysis of

pressurized shells. Variation and numerical methods of structural analysis: Ritz, Galerkin, Finite Difference, Finite Element, Advanced concepts: fracture mechanics, damage

mechanics etc.

Texts/References: 1. David J. Peery, Aircraft Structures, Dover Publications, 2011

2. E. F. Bruhn, Analysis and Design of Flight Vehicle Structures, S.R. Jacobs, 1973 3. T. H. G. Megson, Aircraft Structures for Engineering Students, Butterworth-

Heinemann, 2010

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AE 604 Navigation, Guidance, and Control

Navigation: Continuous waves and frequency modulated radars, MTI and Doppler radars; types of navigation; LORAN, Decca, Omega, VOR, INS, and GPS. Guidance: Guided missiles, guidance laws: pursuit, LOS, CLOS, BR and PN laws. Control: Classical linear time invariant control systems, transfer function representations, stability, Time domain characteristics, Frequency domain characteristics, Root Locus,

Nyquist and Bode plots, Introduction to state space analysis.

Texts/References: 1. Ching Fang Lin, Modern Navigation, Guidance and Control Processing, Prentice Hall,

1991 2. P. Zarchan, Tactical & Strategic Missile Guidance, American Institute of Aeronautics

and Astronautics, 2007 3. G. M. Siouris, Missile Guidance and Control Systems, Springer, 2004 4. John H. Blakelock, Automatic Control of Aircraft and Missiles, Wiley, 1991 5. Anthony Lawrence, Modern Inertial Technology, Springer, 1998

AE 605 Flight Vehicle System Design and Analysis

Guided missile systems: classification, interrelationship between various missile sub-systems.

Basic military characteristics of guided missiles. Missile system reliability. Choice of sub-systems, selection and preliminary design of propulsion, airframe, guidance, aerodynamics, control and warhead systems of a guided missile. Principles of Aircraft design: Preliminary weight estimation, sizing from a conceptual

sketch, airfoil and geometry selection, thrust loading and wing loading selection, initial sizing, configuration layout and special consideration in configuration designs. Propulsion

and fuel system integration. Internal Layout, weight and balance. Design of wing, fuselage, control surfaces and landing gear and subsystems, surface controls. Performance, stability and control. Flight dynamics: Coordinate systems and transformations. Two, three and six DOF equations

of motion. Trajectory optimization. Free flight dispersion, sensitivity analysis and circular error probability.

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Text/References: 1. J.J. Jerger, System Preliminary Design, D. Van Nostrand Co., Inc., Princeton, New

Jersey, 1960. 2. A.E. Puckett and Simon Ramo, Guided Missile Engineering, McGraw Hill, 1989. 3. A.L. Greensite, Analysis & Design of Space Vehicle Flight Control System, Vol. 2,

Sparton Books, New York, 1970. 4. A. Locke, Principles of Guided Missile Design, D. Van Nostrand Company, Inc,

Princeton, New Jersey, 1955. 5. S.S. Chin, Missile Configuration Design, McGraw Hill, New York, 1961.

AE 620 Systems Engineering

Systems definitions and concepts. Conceptual system design; Introduction to engineering design and decision making; Requirements capture; Quality Function Deployment; Queuing theory; Design options; Monte Carlo modeling; Engineering microelectronics; Utility theory; Forecasting. Engineering systems modeling. Analysis of system: Reliability; Maintainabiliiity; Serviceability; Disposability and Affordability. Cost and benefit analysis. Methods of decision analysis; State transition matrix models; Modeling the research and

development process; Information, System life-cycle modeling and optimization. Game theory; Management of engineering systems design and operation; Programme management

with case studies.

Texts/References: 1. George,A. Hazelrigg, Systems Engineering: An Approach to Information-Based

Design, Prentice Hall NJ, 1996. 2. Benjamin, A., Blanchard, and Walter,J. Fabrycky, Systems Engineering and Analysis,

3rd Ed., Prentice Hall International Series, Industrial & Systems Engg., 1998. 3. B. Dennis M. Buede, The Engineering Design of Systems : Models and Methods,

John Wiley & Sons, 2011 4. B. S. Blanchard, Systems Engineering Management, Wiley, 1998 5. A. Kossiakoff, W. N. Sweet, S. J. Seymour & S. M. Biemer, Systems Engineering :

Principles and Practice, Wiley, 2011

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6. Dr. J. E. Kasser, A Framework for Understanding Systems Engineering, BookSurge Publishing, 2007

AE 606 Missile Aerodynamics

Introduction to missile airframe, Different missile configurations, bodies of revolution, non

circular shapes, lifting surfaces, low Aspect Ratio characteristics, wing body tail interference, prediction of overall characteristics of body dominated configurations and lifting surface dominated configurations, high angle of attack aerodynamics, dynamic derivatives, shock wave boundary layer interactions aerodynamic heating, intake

aerodynamics, engine airframe integration, airframe flexibility effects on aerodynamics,. Stage separation dynamics. Configuration design methodology of tactical missiles. Design

methodology of multistage vehicles. Wind tunnel testing: Types of Wind tunnels, requirement of testing, general design features of wind tunnels and measurement techniques.

Text/References: 1. Jack N Nielsen, Missile Aerodynamics, McGraw Hill, 1960 2. John D. Anderson, Hypersonic and High Temperature Gas Dynamics, American

Institute of Aeronautics & Astronautics, New York, 2000. 3. John D. Anderson, Modern Compressible Flow: With Historical Perspective, 3rd Ed,

McGraw Hill, New York, 2004. 4. John D. Anderson, Fundamentals of Aerodynamics, 4th Edition, McGraw Hill, New

York, 2006. 5. E. L. Houghton and P. W. Carpenter, Aerodynamics for Engineering Students, 5th

Edition, Butterworth-Heineman, Oxford, 2003.

AE 607 Missile Propulsion

Fundamentals of jet propulsion: Classification of propulsion system; Propellant performance- Calculations of adiabatic flame temperature and specific impulse, frozen and equilibrium flow assumptions.

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Solid Propellants: Classification- Double base propellant and composite propellant - compositions and manufacturing methods. Liquid Propellants: Classification-mono and bi-propellants, cryogenic and storable propellants, Hypergolic propellants, Combustion modeling and instabilities. Solid propellant rockets: general layout, combustion mechanisms, grain design, internal ballistics, two phase flow, hardware design, Combustion instability. Liquid propellant rockets: Droplet combustion, feed system and ignition, injector design, combustion chamber geometry and cooling, nozzle design, thrust vector control.

Text/References: 1. G.P. Sutton and O.Biblarz, Rocket Propulsion Elements, 7th Ed, John Wiley and

Sons, New York, 2001. 2. J.E. Daboo, Solid Fuel Rocket Propulsion, Temple Press Books, London, 1962. 3. F.A. Warren, Solid Propellant Technology, American Institute of Aeronautics and

Astronautics (AIAA), New York, 1971.

AE 608 Missile Structures

General Requirements, v-n diagram, Load analysis types of loads, Types of structures

Monocoque & semi monocoque. Static analysis of structures. Design of Pressure vessels. Buckling of columns, plates and shells. Kinetic heating and thermal stresses. Deflection

analysis of structural systems. Introduction to FEM. Vibration and aero-elastic analysis, Missile materials-metallic and non-metallic, Design of airframe components, Electronic

package mounting bracket design for vibration environment.

Text/References: 1. Analysis and Design of Flight Vehicle Structures, E. F. Bruhn, Jacobs Pub, 1973 2. Aircraft Structures for Engineering students, T H G Megson, Butterworth-

Heinemann, 4th Edition, 2007

3. Elements of Material Science & Engineering, L. H. Van Vlack, Prentice Hall, 6th Edition, 1989.

4. Aerodynamics, Propulsion and Structure, E. A. Bonney, M. J. Zucrow, and C. W. Besserer, D. Van Nostrand, New York, 1956

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5. Finite Element Methods, O. C. Zienkiewicz and R. L. Taylor, Butterworth-Heinemann, 6th Edition, 2005

AE 609 Missile Guidance

Introduction: classification and phases of missile guidance, navigation systems and

principles of operation.

Missile Kinematics: Kinematics of various courses, time of flight, lateral acceleration demand and turning rate spectrum for each case. Advance Guidance Laws: Optimal guidance, Advanced PN guidance laws, comparative study of different guidance schemes. Inertial Guidance: Introduction, inertial sensors, coordinate systems and its transformation, Schuler tuning and gimballed platform systems. Guidance used for ballistic missiles. Advancement in Guidance Systems: Imaging Infra red Guidance, Scene Correlation Area Navigation System, Millimetric Wave System, Non-LOS guidance Systems, Laser based guidance systems. Pattern Recognition.

Text/References: 1. Merill I. Skolnik, Introduction to Radar Systems, Tata McGraw Hill, New Delhi,

2001. 2. J Clemow, Missile Guidance, Temple Press Ltd, London, 1962. 3. P Zarchan, Tactical and Strategic Missile Guidance, Vol 199 of Progress in

Astronautics and Aeronautics, AIAA, Reston, VA, 2002.

AE 610 Missile Control

Missile control methods: Aerodynamic and thrust vector control, Polar and Cartesian control

Mathematical modeling: Force and moment equa

DIAT Course of Study- 2013

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