SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY, TUMAKURU and 8th semester scheme and syllabus.pdfTriggering...

SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)

Department of Electronics and Co

SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY, TUMAKURU(A Constituent College of Sri Siddhartha Academy of Higher Education)

DEPARTMENT OF ELECTRONICS AND COMMUNICATION

Curriculum for 2016

Sl No Subject

1 Power Electronics and its Applications

2 Computer Communication Networks

3 Image Processing

4 Elective II

5 Elective III

6 CCN Lab

7 Power Electronics Lab

8 Project work (Phase I)

Elective II

EC7PE21: Wireless Sensor Networks

EC7PE22: Flexible Electronics

EC7PE23: Adaptive Signal Processing

EC7PE24: Pattern Recognition

Sl No Subject

1 Mobile and Wireless Communications

2 Business management for

Entrepreneurs

3 Elective IV

4 Elective V

5 Project work (Phase II)

5 Technical Seminar

Elective IV

EC8PE41: Applied Embedded System

EC8PE42: High Performance Networks

EC8PE43: CAD for VLSI

EC8PE44: Speech Processing

SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU(A constituent College of Siddhartha Academy of Higher Education, Tumakuru)

Communication

SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY, TUMAKURU(A Constituent College of Sri Siddhartha Academy of Higher Education)


Curriculum for 2016-17 Batch

VII Semester

Subject Code L T

and its Applications EC7T01 4 0

Computer Communication Networks EC7T02 4 0

Image Processing EC7T03 4 0

Elective II EC7PE2X 3 0

Elective III EC7PE3X 3 0

CCN Lab EC7L01 0 0

Power Electronics Lab EC7L02 0 0

Project work (Phase I) EC7PW01 0 8

18 8

EC7PE21: Wireless Sensor Networks

EC7PE23: Adaptive Signal Processing

Elective III

EC7PE31: MEMS

EC7PE32: Building Automation Systems

EC7PE33: DSP Algorithm and architecture

EC7PE34: Essential of information technology

VIII Semester

Subject Code L T

Mobile and Wireless Communications EC8T01 4 0

Business management for

Entrepreneurs EC8T02 3 0

Elective IV EC8PE4X 3 0

Elective V EC8PE5X 4 0

Project work (Phase II) EC8PW02 2 4

Technical Seminar EC8TS01 0 0

17 4

Embedded Systems

EC8PE42: High Performance Networks

Elective V

EC8PE51: Multirate Systems and Filter Banks

EC8PE52: Modern Cryptography

EC8PE53: Machine Learning

EC8PE54: Intellectual Property Rights

TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)

SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY, TUMAKURU (A Constituent College of Sri Siddhartha Academy of Higher Education)


P SS C

0 4

0 4

0 4

0 3

0 3

3 1.5

3 1.5

0 4

6 25

utomation Systems

EC7PE33: DSP Algorithm and architecture

EC7PE34: Essential of information technology

P SS C

0 4

0 3

0 3

0 4

12 10

0 1 1

12 1 25

EC8PE51: Multirate Systems and Filter Banks

EC8PE52: Modern Cryptography

EC8PE54: Intellectual Property Rights



Syllabus for the Academic Year

Department: Electronics and Communication

Subject Name:Power Electronics and its Applications

Subject Code:EC7T01L-T-P-C:

Course Objectives:

Course Outcomes:

Sl.No Course Objectives

1 To understand and acquire knowledge about various

power semiconducto

2 Prepare the students to analyze and design different

power converter circuits.

Course

outcome

CO1 Analyze the co

CO2 Summarize the various Power Converters. (L2)

CO3 Interpret the various Triggering & Commutation mechanisms. (L3)

CO4 Evaluate the selection of appropriate power devices for particular

applications. (L3)


Communication

Syllabus for the Academic Year – 2019 - 2020

Electronics and Communication Semester: 7

Power Electronics and its Applications

C: 4-0–0-4

Course Objectives

To understand and acquire knowledge about various

power semiconductor devices.

Prepare the students to analyze and design different

power converter circuits.

Descriptions

Analyze the concepts of Power Electronics. (L1)

Summarize the various Power Converters. (L2)

terpret the various Triggering & Commutation mechanisms. (L3)

Evaluate the selection of appropriate power devices for particular

applications. (L3)


To understand and acquire knowledge about various

Prepare the students to analyze and design different

terpret the various Triggering & Commutation mechanisms. (L3)

Evaluate the selection of appropriate power devices for particular



UNIT

I

Introduction to Power Electronics, Applications of power electronics

Power semiconductor devices, Control characteristics, Static

characteristics, Types of power electronics circuits.

Introduction To Thyristors

MOSFET, IGBTandpower

cathode characteristics ( SCR ), Two transistor model, Dynamic Turn

on and turn-off characteristics, Gate characteristics, Gate trigger

circuits, Voltage and Current ratings, di/dt and dv/dt protection

II

Triggering & Commutation Mechanisms: Introduction,

circuits, R triggering circuit, RC triggering circuit & UJT triggering

circuit. Thyristor turn off methods, Natural and Forced commutation,

self commutation, class A and class B types, Complementary

commutation, auxiliary commutation, ext

AC line commutation, numerical problems. Series & Parallel

connections of SCR.

III

Controlled Rectifiers:

converter operation, 1φ fully controlled converters, Dual converters,

φ semi converters (all half wave & full wave converters with R & RL

load) and problems.

IV

Ac Voltage Controllers

Principles of phase control, Single phase controllers with restive loads

and Inductive loads, static on load tap changers, numerical problems.

V

DC Choppers: Introduction, Princ

choppers, Step down chopper with RL loads, Chopper classification,

Analysis of impulse commutated thyristor chopper (only qualitative

analysis),

Inverters: Introduction, Principles ofoperation,

Performanceparameters, 1φbridge inverters, voltage control of 1φ

inverters, current source inverter, Variable DC link inverter and 3φ

voltage source inverter,


Communication

Description

Introduction to Power Electronics, Applications of power electronics


characteristics, Types of power electronics circuits.

Introduction To Thyristors,:Static Characteristics OfDIAC, TRIAC,

andpower BJT, Principle of operation states anode

racteristics ( SCR ), Two transistor model, Dynamic Turn

off characteristics, Gate characteristics, Gate trigger

circuits, Voltage and Current ratings, di/dt and dv/dt protection

Triggering & Commutation Mechanisms: Introduction, Thyristor firing




commutation, auxiliary commutation, external pulse commutation,


: Introduction, Principles of phase controlled

converter operation, 1φ fully controlled converters, Dual converters,


load) and problems.

oltage Controllers: Introduction, Principles of on and off control,



Introduction, Principles of step down and step up



Introduction, Principles ofoperation,

arameters, 1φbridge inverters, voltage control of 1φ


voltage source inverter,


Hours

Introduction to Power Electronics, Applications of power electronics,


DIAC, TRIAC,

inciple of operation states anode-

racteristics ( SCR ), Two transistor model, Dynamic Turn-

off characteristics, Gate characteristics, Gate trigger

circuits, Voltage and Current ratings, di/dt and dv/dt protection.

11

Hours

Thyristor firing




ernal pulse commutation,


11

Hours

Introduction, Principles of phase controlled

converter operation, 1φ fully controlled converters, Dual converters, 1


load) and problems.

10

Hours

Introduction, Principles of on and off control,



10

Hours

iples of step down and step up



Introduction, Principles ofoperation,

arameters, 1φbridge inverters, voltage control of 1φ


10

Hours



Question paper Pattern:

From each unit, two questions of 20 marks each have to be given. The stud

answer one full question of his/her choice.

Text Books:

Sl No Text Book title

1 Power Electronics

2 Power Electronics

Reference Book:


1 Thyristoriized Power

Controllers

2 Power Electronics

3 PowerElectronics

Devices and Circuits


Communication

From each unit, two questions of 20 marks each have to be given. The student has to


Author Volume and Year of Edition

M. H. Rashid 4th edition, PHI / Pearson

publisher 2013.

M. D. Singh and

KanchandaniK.B.

TMH publisher, 2

reprint 2009. 2007

Text Book title Author Volume and Year of

Edition

Thyristoriized Power G. K. Dubey S. R. Doradla,

A. Joshi and Rmk Sinha

Newageinternational(P)

ltd reprint 2005.

P.C.Sen 2010

Devices and Circuits

M.S. Suresh and Veena S

Murthy

1st Edition, Prism

Publications


ent has to

Volume and Year of Edition

edition, PHI / Pearson

publisher 2013.

TMH publisher, 2nd Ed.4th

reprint 2009. 2007

Volume and Year of

Newageinternational(P)

ltd reprint 2005.

Edition, Prism

Publications-2012.



Subject Name: Computer Communication Networks

Subject Code: EC7T02

Course Objectives :

Course Outcomes

Sl.No

1 To make students understand the working of

different layers of OSI model & TCP/IP model.

2 To analyze the various routing algorithms.

3 To know the concept of data transfer between nodes.

4 To know about application layer.

Course

outcome

CO1

Describe, and compare the importance of network architectures,

frame formats, addressing mechanisms and Wired &/

architectures used for different network applications.(L4)

CO2 Identify the significance of basic concepts of computer networks

which is the basis for Internet applications.(L1)

CO3

Design and assess network topologies, Protocol stack, Address

space and band width capacities of different data transmission

standards. (L6)

CO4

Illustrate the essence of connecting devices required at different

layers and Virtual LAN technology features, facilitating the flexible

network design for users.(L4)


Communication

Computer Communication Networks

L-T-P-C: 4 0 0 4

Course Objectives

To make students understand the working of

different layers of OSI model & TCP/IP model.

To analyze the various routing algorithms.

know the concept of data transfer between nodes.

To know about application layer.

Descriptions


frame formats, addressing mechanisms and Wired &/


Identify the significance of basic concepts of computer networks

which is the basis for Internet applications.(L1)


pace and band width capacities of different data transmission

standards. (L6)



network design for users.(L4)


C: 4 0 0 4

know the concept of data transfer between nodes.


frame formats, addressing mechanisms and Wired &/ Wireless


Identify the significance of basic concepts of computer networks


pace and band width capacities of different data transmission





UNIT

I Introduction: Data Communications: Components, Representations,

Data Flow, Networks: Physical Structures, Network Types: LAN, WAN,

Switching, Internet. Protocols and Standards, Standard organizations,

Internet standards. Network Mo

Architecture, Peer to Peer Processes, Interfaces between Layers,

Organization of layers, Encapsulation and Decapsulation, Layers in

OSI model, Description of layers, TCP/IP Protocol suite, OSI Versus

TCP/IP, Physical and Data

layer, Application layer, Addressing, Data Link Control (DLC) services:

Framing, Flow and Error Control, Data Link Layer Protocols: Simplest

protocol, Stop and wait protocol, Go

protocol, Piggybacking.

II Media Access Control: Random Access: ALOHA, CSMA, CSMA/CD,

CSMA/CA. Controlled Access: Reservation, Polling, Token Passing.

Channelization: FDMA, TDMA and CDMA. Wired LANs: Ethernet:

Ethernet Protocol: IEEE802, Ethernet Evolution, S

Characteristics, Addressing, Access Method, Efficiency,

Implementation, Fast Ethernet: Access Method, Physical Layer,

Gigabit Ethernet: MAC Sublayer, Physical Layer, 10 Gigabit Ethernet.

III Wireless LANs: Introduction: Architectural

Characteristics, IEEE 802.11: Architecture, MAC Sublayer,

Addressing Mechanism, Physical Layer, Bluetooth: Architecture,

Layers. Connecting Devices: Hubs, Switches, Virtual LANs:

Membership, Configuration, Communication between Switches and

Routers, Advantages. Network Layer: Introduction, Network Layer

services: Packetizing, Routing and Forwarding, Other services, Packet

Switching: Datagram Approach, Virtual Circuit Approach, IPV4

Addresses: Address Space, Classful Addressing, Classless Address

DHCP, Network Address Translation, IPV6 Addresses.


Communication

Description

Introduction: Data Communications: Components, Representations,



Internet standards. Network Models: The OSI Model: Layered




TCP/IP, Physical and Data-Link Layers: Network layer, Transport



protocol, Stop and wait protocol, Go-Back-N Protocol, Selective repeat

l, Piggybacking.

Media Access Control: Random Access: ALOHA, CSMA, CSMA/CD,



Ethernet Protocol: IEEE802, Ethernet Evolution, Standard Ethernet:




Wireless LANs: Introduction: Architectural Comparison,





ters, Advantages. Network Layer: Introduction, Network Layer



Addresses: Address Space, Classful Addressing, Classless Address

DHCP, Network Address Translation, IPV6 Addresses.


Hours

Introduction: Data Communications: Components, Representations,



dels: The OSI Model: Layered




ink Layers: Network layer, Transport



N Protocol, Selective repeat

11

Media Access Control: Random Access: ALOHA, CSMA, CSMA/CD,



tandard Ethernet:




11

Comparison,





ters, Advantages. Network Layer: Introduction, Network Layer



Addresses: Address Space, Classful Addressing, Classless Addressing,

10



IV Network Layer Protocols: Internet Protocol (IP): Datagram Format,

Fragmentation, Options, Security of IPv4 Datagrams, IPv4: Messages,

Debugging Tools, Mobile IP: Addressing, Agents, Three Phase

Inefficiency in Mobile IP. Unicast Routing: Introduction, Routing

Algorithms: Distance Vector Routing, Link State Routing, Path vector

routing, Unicast Routing Protocol: Internet Structure, Routing

Information Protocol, Open Shortest Path First, Border

Protocol Version 4.

V Transport Layer: Introduction: Transport Layer Services,

Connectionless and Connection oriented Protocols, Transport Layer

Protocols: User Datagram Protocol: User Datagram, UDP Services,

UDP Applications, Transmission Con

Features, Segment, Connection, State Transition diagram, Windows in

TCP, Flow control, Error control, TCP congestion control.


From each unit, two questions of 20 marks each have to be given. The


Text Books:


1 Data Communication and

Networking

Reference Book:


1 Computer Networks

2 Introduction to Data

communication and Networking


Communication

Network Layer Protocols: Internet Protocol (IP): Datagram Format,


Debugging Tools, Mobile IP: Addressing, Agents, Three Phase




Information Protocol, Open Shortest Path First, Border Gateway

Transport Layer: Introduction: Transport Layer Services,



UDP Applications, Transmission Control Protocol: TCP Services, TCP


TCP, Flow control, Error control, TCP congestion control.



Text Book title Author Volume and Year

of Edition

Data Communication and B Forouzan 4th

le Author Volume and Year of

Edition

James F. Kurose,

Keith W. Ross

2nd Edition, 2003

Pearson Edu.

Introduction to Data

communication and Networking

Wayne Tomasi Pearson Edu, 2007


Network Layer Protocols: Internet Protocol (IP): Datagram Format,


Debugging Tools, Mobile IP: Addressing, Agents, Three Phases,




Gateway

10

Transport Layer: Introduction: Transport Layer Services,



trol Protocol: TCP Services, TCP


10

student has to

Volume and Year

of Edition

Ed, TMH 2006

Volume and Year of

Edition

2nd Edition, 2003

Pearson Edu.

Pearson Edu, 2007



Subject Name: Digital Image processing

Subject Code: EC7T03

Course Objectives :

Course Outcomes

Sl.No

1 Learn digital image fundamentals.

2 Be exposed to simple image processing techniques.

3 Be familiar with image compression and transform

techniques.

4 Learn to represent image in form of features.

Course

outcome

CO1 Mathematically represent the various types of images and analyze

them

CO2 Process these

certain properties.

CO3 Develop algorithms for image segmentation and coding

CO4 Optimized use of the resources and feature analysis of images.


Communication

processing

L-T-P-C: 4

Course Objectives

Learn digital image fundamentals.

Be exposed to simple image processing techniques.

Be familiar with image compression and transform

techniques.

Learn to represent image in form of features.

Descriptions

Mathematically represent the various types of images and analyze

Process these images for the enhancement and transform of

certain properties.

Develop algorithms for image segmentation and coding

Optimized use of the resources and feature analysis of images.


C: 4-0-0-4

Be familiar with image compression and transform

Mathematically represent the various types of images and analyze

images for the enhancement and transform of

Optimized use of the resources and feature analysis of images.



UNIT

I Digital Image Fundamentals

Introduction – Origin

Components – Elements of Visual Perception

Acquisition – Image Sampling and Quantization

between pixels. Simulations

II Intensity Transformations, Spatial And Frequency Domain Filtering.

Intensity Transformation functions, Histogram Processing and

Function Plotting, Spatial Filtering

Standard spatial filters, The 2 D Discrete Fourier Transform

,Computing and visualizing the 2

frequency domain, Obtaining frequency domain Filters from spatial

Filters. Simulations. Text(Section 2

III Image Transforms:

Two dimensional orthogonal and Unitary transforms, Properties of

Unitary transforms, two dimensional discrete Fourier Transform,

Discrete Cosine Transforms, Sine Transforms, Hadamard

Transform, Haar Transform, Advantages and applications of each

transforms. Simulations. Ref 2(Section 5.1 to 5.9)

IV Color Image Processing And Wav

Color image Representation in MATLAB ,Converting between Color

spaces, The basics of Color image processing. Wavelets: Background

the fast Wavelet Transform, Working with Wavelet Decomposition

Structures. The inverse fast Wavelet transform .simulations

6.1 to 6.3,7.1 to 7.4)

V Image Segmentation

Point ,line and Edge detection ,line Detection using Hough

Transform,Thresholding ,Region Based Segmentation.

(Section10.1to10.48.4)


Communication

Description

Digital Image Fundamentals

Origin – Steps in Digital Image Processing

Elements of Visual Perception – Image Sensing and

Image Sampling and Quantization – Relationships

between pixels. Simulations. Ref 1 (Section1.1.2,1.4,1.5,2.1to 2.5)

Intensity Transformations, Spatial And Frequency Domain Filtering.


Function Plotting, Spatial Filtering, Image processing tool box


,Computing and visualizing the 2 –D DFT in MATLAB, Filtering in


Text(Section 2.1 to 2.5, 3.1 to 3.4)






Color Image Processing And Wavelets




. The inverse fast Wavelet transform .simulations. Section

6.1 to 6.3,7.1 to 7.4)





Hours

Steps in Digital Image Processing –

Image Sensing and

Relationships

Ref 1 (Section1.1.2,1.4,1.5,2.1to 2.5)

10

Hours

Intensity Transformations, Spatial And Frequency Domain Filtering.


, Image processing tool box


D DFT in MATLAB, Filtering in


.1 to 2.5, 3.1 to 3.4)

12Hours






10

Hours




Section

6.1 to 6.3,7.1 to 7.4)

10

Hours




10

Hours




From each unit, two questions of 20 marks each have


Text Books:


1 “Digital Image Processing”, Using

MATLAB

2 “ Digital Image Processing ”

Reference Book:


1 “Digital Image Proce

MATLAB”,

2 “Fundamentals of Digital Image

Processing”, PHI Learning Pvt. Ltd.,

3 “Digital Image Processing”,

4 “Digital Image Processing and

Pattern Recognition”


Communication




of Edition

“Digital Image Processing”, Using Rafael C. Gonzales,

Richard E. Woods,

second Edition,

Mc Graw Hill

Education, 2010.

“ Digital Image Processing ” Jayaraman Tata McGraw

Education, 3

Edition 2011


of Edition

“Digital Image Processing Using Rafael C. Gonzalez,

Richard E. Woods,

Steven L. Eddins,

Third Edition Tata

Mc Graw Hill Pvt.

Ltd., 2011.

“Fundamentals of Digital Image

Processing”, PHI Learning Pvt. Ltd.,

Anil Jain K.

2011.

“Digital Image Processing”, Willliam K Pratt,

John Willey

2002

“Digital Image Processing and

Pattern Recognition”

Malay K. Pakhira,

First Edition, PHI

Learning Pvt. Ltd.,

2011.


to be given. The student has to

Volume and Year

of Edition

cond Edition,

Mc Graw Hill

Education, 2010.

Tata McGraw-Hill

Education, 3rd

Edition 2011

Volume and Year

of Edition

Third Edition Tata

Mc Graw Hill Pvt.

Ltd., 2011.

2011.

2002

First Edition, PHI

Learning Pvt. Ltd.,

2011.



Subject Name: Wireless Sensor Networks

Subject Code: EC7PE21

Course Objectives :

Course Outcomes

Sl.No

1 To make students understand the basic WSN

technology and supporting protocols.

2 To understand medium

address physical layer issues.

3 Learn key routing protocols, data aggregation

protocols and main design issues.

4 To know about various applications of WSN

technology.

Course

outcome

CO1

Learn and compare sensor node hardware and software platf

Acquire an overview about sensor networks, energy technologies

and to study about the node and network architecture based on

which sensor network functions. (L2)

CO2 Understand the concepts of communication MAC protocols,

routing protocols, and also

CO3 Study about topology control and clustering in network with

timing synchronization for sensor localization services. (L3)

CO4 Study about sensor network simulation and programming

technologies (L4).


Communication

Wireless Sensor Networks

L-T-

Course Objectives

To make students understand the basic WSN

technology and supporting protocols.

understand medium access control protocols and

address physical layer issues.

Learn key routing protocols, data aggregation

protocols and main design issues.

To know about various applications of WSN

technology.

Descriptions

Learn and compare sensor node hardware and software platf



which sensor network functions. (L2)

Understand the concepts of communication MAC protocols,

routing protocols, and also study data aggregation methods. (L1).

Study about topology control and clustering in network with


Study about sensor network simulation and programming

technologies (L4).


-P-C: 3 0 0 3

access control protocols and

Learn key routing protocols, data aggregation

Learn and compare sensor node hardware and software platforms.



Understand the concepts of communication MAC protocols,

study data aggregation methods. (L1).

Study about topology control and clustering in network with


Study about sensor network simulation and programming



UNIT

I Characteristics Of WSN: Characteristic requirements for WSN

Challenges for WSNs

architecture – Commercially available sensor nodes

Mote, EYES nodes, BTnodes, TelosB, Sunspot

transceiver design considerations in WSNs, Energy usage profile,

Choice of modulation scheme, Dynamic modulation scaling, Antenna

considerations.

II Medium Access Control Protocols: Fundamentals of MAC protocols

Low duty cycle proto

protocols, Schedule-based protocols

medium access protocol (TRAMA)

III Routing And Data Gathering Protocols Routing Challenges and Design

Issues in Wireless Sensor Networks, Flooding and gossiping

centric Routing – SPIN

Gradient-based routing

Hierarchical Routing

GF, GAF, GEAR, GPSR

APTEEN, SPEED, RAP

Data aggregation - data aggregation operations

Sensor Networks - Aggregation Techniques

IV Embedded Operating Systems: Operating Syst

Networks – Introduction

of Operating Systems

- EYES OS – SenOS –

NesC – Interfaces and Modules

Components -Programming in Tiny OS using NesC, Emulator

TOSSIM.

V Applications Of WSN: WSN Applications

Automation - Industrial Automation

Reconfigurable Sensor Network

Applications - Civil and Environmental Engineering Applications


Communication

Description

Characteristics Of WSN: Characteristic requirements for WSN

Challenges for WSNs – WSN vs Adhoc Networks - Sensor node

Commercially available sensor nodes –Imote, IRIS, Mica

Mote, EYES nodes, BTnodes, TelosB, Sunspot -Physical layer and



Medium Access Control Protocols: Fundamentals of MAC protocols

Low duty cycle protocols and wakeup concepts – Contention based

based protocols - SMAC - BMAC - Traffic-adaptive

medium access protocol (TRAMA) - The IEEE 802.15.4 MAC protocol.

Routing And Data Gathering Protocols Routing Challenges and Design

ues in Wireless Sensor Networks, Flooding and gossiping –

SPIN – Directed Diffusion – Energy aware routing

based routing - Rumor Routing – COUGAR – ACQUIRE

Hierarchical Routing - LEACH, PEGASIS – Location Based Routing

GF, GAF, GEAR, GPSR – Real Time routing Protocols –

APTEEN, SPEED, RAP –

data aggregation operations - Aggregate Queries in

Aggregation Techniques – TAG, Tiny DB.

Embedded Operating Systems: Operating Systems for Wireless Sensor

Introduction - Operating System Design Issues - Examples

of Operating Systems – TinyOS – Mote – MagnetOS – MANTIS -

– EMERALDS – PicOS – Introduction to Tiny OS

Interfaces and Modules- Configurations and Wiring - Generic

Programming in Tiny OS using NesC, Emulator

Applications Of WSN: WSN Applications - Home Control - Building

Industrial Automation - Medical Applications

Reconfigurable Sensor Networks - Highway Monitoring - Military

Civil and Environmental Engineering Applications


Hours

Characteristics Of WSN: Characteristic requirements for WSN -

Sensor node

Imote, IRIS, Mica

ysical layer and



10

Medium Access Control Protocols: Fundamentals of MAC protocols -

Contention based

adaptive

The IEEE 802.15.4 MAC protocol.

5

Routing And Data Gathering Protocols Routing Challenges and Design

– Data

Energy aware routing -

ACQUIRE –

Location Based Routing –

TEEN,

Aggregate Queries in

7

ems for Wireless Sensor

Examples

OSPM

Introduction to Tiny OS –

Generic

Programming in Tiny OS using NesC, Emulator

9

Building

Medical Applications -

Military

Civil and Environmental Engineering Applications -

8



Wildfire Instrumentation

Applications – Case Study: IEEE 802.15.4 LR

Target detection and tracking

sampling.




Text Books:


1 Wireless Sensor Networks

Technology, Protocols, and

Applications

2 Protocols and Architectures for


Reference Book:


1 A survey of routing protocols in

wireless sensor networks”, Elsevier

Ad Hoc Network Journal

2 TinyOS Programming


Communication

Wildfire Instrumentation - Habitat Monitoring - Nanoscopic Sensor

Case Study: IEEE 802.15.4 LR-WPANs Standard

Target detection and tracking - Contour/edge detection -



Text Book title Author Volume and


Technology, Protocols, and

Kazem Sohraby,

Daniel Minoli and

TaiebZnati

John Wiley &

Sons, 2007

Protocols and Architectures for


Holger Karl and

Andreas Willig

John Wiley &

Sons, Ltd, 2005


of Edition

A survey of routing protocols in

wireless sensor networks”, Elsevier

Ad Hoc Network Journal

K. Akkaya and M.

Younis

2nd Edition, 2003

Pears

TinyOS Programming Philip Levis and

David Gay

2006


Nanoscopic Sensor

WPANs Standard -

- Field


Volume and Year

of Edition

John Wiley &

Sons, 2007

John Wiley &

Sons, Ltd, 2005

Volume and Year

of Edition

2nd Edition, 2003

Pearson Edu.

2006



Subject Name: Flexible Electronics


Course Objectives :

Course Outcomes

Sl.No

1

Understand the specific design rules and the process

of fabrication of flexible electronic devices and

circuits.

Course

outcome

CO1 Identify the materials used for fabrication flexible electronic

devices.

CO2 Following of desi

techniques of flexible electronic devices.

CO3 Indicate main objectives and application areas of flexible

electronics.


Communication

Flexible Electronics

L-T-P-C: 3 0 0 3

Course Objectives

and the specific design rules and the process

of fabrication of flexible electronic devices and

Descriptions

Identify the materials used for fabrication flexible electronic

Following of design rules and know the different fabrication

techniques of flexible electronic devices.

Indicate main objectives and application areas of flexible


C: 3 0 0 3

and the specific design rules and the process

Identify the materials used for fabrication flexible electronic

gn rules and know the different fabrication

Indicate main objectives and application areas of flexible



UNIT

I Unit 1: Flexible Electronics Basics

Introduction to Flexible and Printed Electronics and their Materials

Systems, Background and history, emerging technologies, general

applications, Review of Semiconductors and Circuit Elements, Carrier

transport, doping, band structure, thin

II Unit 2: Flexible Devices Fabrication and Materials

Thin-film Deposition and Processing Methods for Flexible Devices,

CVD, ECVD, PVD, etching, photolithography, low

process integration, Materials for Flexible and Printed Electronics:

Nanowire and nanoparticle synthesis, transition metal oxides,

amorphous thin films, polymeric semiconductors, paper

electronics, textile substrates, barrier materials.

III Unit 3:Thin Film Transistors

Thin Film Transistors device structure

characteristics, Mechanics of Thin

Transistors: thin-film mechanics models, neutral plane, conformal

electronics, mechanical modeling.

IV Unit 4: Patterning Process, Interfaces

Solution-based Patte

imprint lithography, spray pyrolysis, surface energy effects,

multilayer patterning Contacts and Interfaces to Organic and

Inorganic Electronic Devices: Schottky contacts, defects, carrier

recombination, effect o

V Unit 5: Applications and Economics

Flexible Electronics Applications: Displays, sensor arrays, memory

devices, MEMS, lab-on

Cost Models and Economics of Printed Flexible E

of display industry cost models, cost advantages and disadvantages

for printed electronics, scaling of large

goods sold for display applications.


Communication

Description

Unit 1: Flexible Electronics Basics

Flexible and Printed Electronics and their Materials



transport, doping, band structure, thin-film electronic devices.

Unit 2: Flexible Devices Fabrication and Materials

film Deposition and Processing Methods for Flexible Devices,

CVD, ECVD, PVD, etching, photolithography, low-temperature



amorphous thin films, polymeric semiconductors, paper-based

electronics, textile substrates, barrier materials.

Unit 3:Thin Film Transistors

Thin Film Transistors device structure and performance: I

characteristics, Mechanics of Thin-films and Flexible Thin

film mechanics models, neutral plane, conformal

electronics, mechanical modeling.

Unit 4: Patterning Process, Interfaces

based Patterning Processes: Ink-jet printing, gravure,




recombination, effect of applied mechanical strain.

Unit 5: Applications and Economics


on-a-chip, and photo-voltaics, Introduction to

Cost Models and Economics of Printed Flexible Electronics: Overview


for printed electronics, scaling of large-area flexible systems, cost of

goods sold for display applications.


Hours

Flexible and Printed Electronics and their Materials



film electronic devices.

8Hours

film Deposition and Processing Methods for Flexible Devices,

temperature



based

8

Hours

and performance: I-V

films and Flexible Thin-film

film mechanics models, neutral plane, conformal

8

Hours

jet printing, gravure,




8

Hours


voltaics, Introduction to

lectronics: Overview


area flexible systems, cost of

7

Hours






Text Books:


1 Flexible Electronics: Materials

and Application

2 Flexible Electronics: From

Materials to Devices

Reference Book:


1 Stretchable Electronics


Communication

tions of 20 marks each have to be given. The student has to



of Edition

Flexible Electronics: Materials Wong, William S., Salleo,

Alberto

ISBN:

9781441944948

Flexible Electronics: From

Guozhen Shen, Zhiyong

Fan

ISBN:

97898146519813.


of Edition

e Electronics Takao Someya ISBN:

9783527329786


tions of 20 marks each have to be given. The student has to

Volume and Year

of Edition

ISBN:

9781441944948

ISBN:

97898146519813.

Volume and Year

of Edition

ISBN:

9783527329786



Subject Name: Adaptive Signal Processing


Course Outcomes

UNIT

I

UNIT I: Linear Prediction and

Correlation Functions and Power Spectra, Innovations Representation

of a Stationary Random Process, Forward and Backward Linear

Prediction ,Solution of Normal Equations, Properties of Linear

Prediction –Error Filters, AR Lat

Wiener Filters for filtering and Prediction

II

UNIT II: Algorithms for Adapting FIR

FiltersSearchTechniques,Gradient search Approach,Least Mean

Square Algorithm,Recursive Least Squres Algorithms

III

UNIT III: Algorithms for Adapting IIR FiltersIIRModeling,Gradient

Descent Minimization of squared Prediction Error,Parameter

Identification format and Stability theory Interpretation,Filtered Error

and Filtered

McBridgeAlgorithm,IIRwhitner,ARMAX modeling

IV

UNIT IV: Frequency

Adaptive Filters,Fast Block

Domain Adaptive Filters,Self

Filters,AdaptiveEqualization,Subband Adap

Course

outcome

CO1 To Analyze Wiener filters

CO2 To implement LMS and normalized LMS Adaptive filterssignals.

CO3 To design frequency domain Adaptive filters

CO4 To apply adaptive signal processing to DSP applications


Communication

Subject Name: Adaptive Signal Processing

L-T-P-C: 3 0 0 3

Description

UNIT I: Linear Prediction and Optimum Linear Filters Signals,




Error Filters, AR Lattice and ARMA Lattice-Ladder Filters,

Wiener Filters for filtering and Prediction



Square Algorithm,Recursive Least Squres Algorithms

III: Algorithms for Adapting IIR FiltersIIRModeling,Gradient



and Filtered-Regressor Algorithms,Steiglitz

IRwhitner,ARMAX modeling

UNIT IV: Frequency-Domain and Subband Adaptive FiltersBlock

Adaptive Filters,Fast Block-LMS algorithm,Unconstrained Frequency

Domain Adaptive Filters,Self-Orthogonalising Adaptive

Filters,AdaptiveEqualization,Subband Adaptive Filters,Classification of

Descriptions

alyze Wiener filters

To implement LMS and normalized LMS Adaptive filterssignals.

To design frequency domain Adaptive filters

To apply adaptive signal processing to DSP applications


C: 3 0 0 3

Hours

Optimum Linear Filters Signals,




Ladder Filters,

08Hrs



08Hrs

III: Algorithms for Adapting IIR FiltersIIRModeling,Gradient



Regressor Algorithms,Steiglitz-

08Hrs

Domain and Subband Adaptive FiltersBlock

LMS algorithm,Unconstrained Frequency-

Orthogonalising Adaptive

tive Filters,Classification of

08Hrs

To implement LMS and normalized LMS Adaptive filterssignals.



Adaptive Filtering Algorithms

V

UNIT V: Kalman FiltersInnovations Process, Estimation of the State

Using the Innovations ProcessKalman Filter as the Unifying Basis for

RLS filters,Variations of the Kalman Filter




Text Books:


1 Digital Signal Processing:

Principles, Algorithms, and

Applications

Reference Book:


1 Adaptive Filter Theory

2 Adaptive Signal

Processing

3 Theory and Design of

Adaptive Filters


Communication

Adaptive Filtering Algorithms



RLS filters,Variations of the Kalman Filter




Digital Signal Processing:

Principles, Algorithms, and

J.G.Proakis,D.G.Manolakis 2011

Author

Adaptive Filter Theory S.Haykin

B.Widrow and S.D.Stearns

and Design of .Treichler,C.R.Johnson,M.G.Larimore




07Hrs


Volume and Year

of Edition

2011

Volume and

Year of Edition

2003

2009

2002



Subject Name: Pattern Recognition


Course Objectives:

Course Outcomes:

Sl.No

1 Describe the fundamental concepts in pattern recognition (Bayesian decision

theory, maximum likelihood estimation and Bayesian estimation).

2 Calculate and explain the probability theory of events, random variables, joint

distribution and density functio

3 Solve and explain the statistical decision and non

4 Compare and analyze clustering methods.

Course

outcome

CO1 Outline the concepts of pattern recognition and machine perception.

(L2)

CO2 Understand the principles of clustering approaches to pattern

recognition and exposure to biometric techniques

CO3 Apply the knowledge of probability in statistical and non

decision making. (L3)

CO4 Analyse classification problems and

(L4)


Communication

Subject Name: Pattern Recognition

L-T-P-C

Course Objectives

Describe the fundamental concepts in pattern recognition (Bayesian decision


Calculate and explain the probability theory of events, random variables, joint

distribution and density function.

Solve and explain the statistical decision and non-parametric decision making.

Compare and analyze clustering methods.

Descriptions

concepts of pattern recognition and machine perception.

Understand the principles of clustering approaches to pattern

recognition and exposure to biometric techniques. (L2)

Apply the knowledge of probability in statistical and non

decision making. (L3)

Analyse classification problems and estimate classifier performance.


C: 3-0-0-3

Describe the fundamental concepts in pattern recognition (Bayesian decision


Calculate and explain the probability theory of events, random variables, joint

parametric decision making.

concepts of pattern recognition and machine perception.

Understand the principles of clustering approaches to pattern

Apply the knowledge of probability in statistical and non-parametric

estimate classifier performance.






UNIT

I

Introduction: Machine perception

systems, the design cycle , learning and adaptation, applications of

pattern recognition, statistical decision theory, image

analysis. (Text book 2: 1.1

II

Probability: Probabilities of events, random variables, joint

distributions and densities, moments of random variables, estimation

of parameters from samples, minimum risk estimat

( Text book 1: 2.1-2.8 )

III

Statistical decision making: Introduction, Bayes' theorem, multiple

features, conditionally independent features, decision boundaries,

unequal costs of error, estimation of error rates, the leaving

technique, estimating the composition of populations, problems. (Text

book 1: 3.1-3.8, 3.10-

IV

Nonparametric decision making: Introduction, histograms, kernel and

window estimators, nearest neighbor classification techniques,

adaptive decision boundaries, adaptive discriminant functions,

minimum squared error discriminant functions, choosing a decision

making technique, problems. (Text book 1: 4.1

V

Clustering: Introduction, hierarchical clustering, Partitional

clustering, problems.

Introduction to Biometric Recognition:

system,Verification versus identification

biometrics,Biometric characteristics

(Text book 1: 5.1-5.4, Text book 3: 1.2, 1.3, 1.5, 1.6, 2.3)


Communication



Description

Introduction: Machine perception-an example, pattern recognition


pattern recognition, statistical decision theory, image processing and

analysis. (Text book 2: 1.1-1.5, Text book 1:1.1-1.3 )



of parameters from samples, minimum risk estimators, problems.

2.8 )



unequal costs of error, estimation of error rates, the leaving-one


-3.11 ) .



n boundaries, adaptive discriminant functions,


making technique, problems. (Text book 1: 4.1-4.9)


clustering, problems.

Introduction to Biometric Recognition:Operation of a biometric

Verification versus identification,Applications of

Biometric characteristics: Finger Prints feature extraction,

5.4, Text book 3: 1.2, 1.3, 1.5, 1.6, 2.3)



Hours

an example, pattern recognition


processing and

6



ors, problems.

8



one-out


8



n boundaries, adaptive discriminant functions,


8


Operation of a biometric

Applications of

Finger Prints feature extraction,

9



Text Books:


1 Pattern Recognition and

Image Analysis

2 Pattern Classification

3 Handbook of Biometrics

Reference Book:


1 Pattern

Recognition


Communication


Edition

attern Recognition and Earl Gose PHI, 2nd

Pattern Classification Richard O. Duda, Peter E.

Hart, David G. Stork

John Wiley & Sons, 2012.

Handbook of Biometrics Anil K. Jain,Patrick

FlynnArun A. Ross

Springer science

York-2009


Edition

Sergios Theodoridis,

Konstantinos Koutroumbas,

Elsevier, India Pvt.

Ltd, 4th edition


Volume and Year of

Edition

nd Edition, 2012

John Wiley & Sons, 2012.

Springer science-New

2009

Volume and Year of

Edition

Elsevier, India Pvt.

Ltd, 4th edition.



Subject Name: MEMS


Course Outcomes

UNIT

I

UNIT – I: INTRODUCTION TO MEMS TEC

MEMS and motivation, Basic definitions. SCALING IN

MICRODOMAIN: How small is different

Scaling laws in electrostatic, electromagnetic, rigidity of structures,

heating & cooling, Fluid viscosity

overall system performance considering multiple physical domains.

MEMS MATERIALS: Mechanical and other properties of materials

used in MEMS

II

UNIT – II: MICROFABRIC

micro fabrication, Review of microelectronics fabrication processes like

photolithography, deposition, doping, etching, structural and

sacrificial materials, other lithography methods,. MEMS fabrication

methods like surface, bulk, LIGA and wafer bonding methods.

Course

outcome

CO1 CO1. Annotate to the field of micro/nanosystems (L2)

CO2 State the knowledge of basic approaches for micro/nan

design (L1)

CO3 Compose state

micro/nanosystems(L6)

CO4

Evaluate new materials, science and technology for

micro/nanosystem applications

(L5)


Communication

L-T-P-C: 3 0 0 3

Description

: INTRODUCTION TO MEMS TECHNOLOGY: Introduction to


MICRODOMAIN: How small is different- some natural examples,


heating & cooling, Fluid viscosity and fluid interfaces, etc. Scaling in



used in MEMS

II: MICROFABRICATION / MICROMACHINING: Overview of




surface, bulk, LIGA and wafer bonding methods.

Descriptions

CO1. Annotate to the field of micro/nanosystems (L2)

State the knowledge of basic approaches for micro/nanosystem

Compose state-of-the-art lithography techniques for

micro/nanosystems(L6)


micro/nanosystem applications


C: 3 0 0 3

Hours

HNOLOGY: Introduction to


some natural examples,


and fluid interfaces, etc. Scaling in



8Hrs

ATION / MICROMACHINING: Overview of




surface, bulk, LIGA and wafer bonding methods.

7Hrs

osystem




III

UNIT –III: TRANSDUCTION PRINCIPLES: Transduction principles in

micro domain MEMS MODELING: Basic modeling elements in

electrical, mechanical, thermal and fluid systems, analogy between

2nd order mechanical and electrical systems. Modeling elastic,

electrostatic, electromagnetic systems.

IV

UNIT – IV: RADIO FREQUENCY (RF) MEMS: Introduction, Review of

RF-based communication systems, RF

varactors, tuners, filters, resonators, phase shifters, switches,

OPTICAL MEMS: Preview, passive optical components like lenses and

mirrors, actuators for active optical MEMS.

V

UNIT – V: CASE STUDIES: Case studies of mi

microcantilever based sensors and actuators with

selection of material properties: thermal; mechanical properties.

Static and dynamic mechanical response with different force

mechanisms: electrostatic, electromagnetic, the

NANOTECHNOLOGY AND MEMS: Relation between micro and

nanotechnologies. Need and issues in handling nano products with

the help of MEMS


From each unit, two questions of


Text Books:


1 MEMS and Microsystems

Design and Manufacture

2 Foundations of MEMS


Communication

III: TRANSDUCTION PRINCIPLES: Transduction principles in



er mechanical and electrical systems. Modeling elastic,

electrostatic, electromagnetic systems.

IV: RADIO FREQUENCY (RF) MEMS: Introduction, Review of

based communication systems, RF –MEMS like MEMS inductors,



mirrors, actuators for active optical MEMS.

V: CASE STUDIES: Case studies of microsystems including

microcantilever based sensors and actuators with appropriate

of material properties: thermal; mechanical properties.


mechanisms: electrostatic, electromagnetic, thermal etc.



the help of MEMS




MEMS and Microsystems

Design and Manufacture

Tai, Ran Hsu 2002

Foundations of MEMS Chang Liu 2006


III: TRANSDUCTION PRINCIPLES: Transduction principles in



er mechanical and electrical systems. Modeling elastic,

8Hrs

IV: RADIO FREQUENCY (RF) MEMS: Introduction, Review of

EMS inductors,



8Hrs

crosystems including

appropriate

of material properties: thermal; mechanical properties.


rmal etc.



8Hrs

20 marks each have to be given. The student has to

Volume and Year

of Edition

2002

2006



Reference Book:


1 Modeling MEMS and NEMS

2 Fundamentals of

Microfabrication

3 An Introduction to

Microelectromechanica

Systems Engineering

4 Introduction to Microelectro

mechanical (MEM) Microwave

Systems


Communication

Text Book title Author

Modeling MEMS and NEMS John A. Pelesko, David

H.Bernstein

Madou

Microelectromechanical

Nadim Maluf

Introduction to Microelectro

(MEM) Microwave

H.J. De Los

Santos


Volume and

Year of Edition

CRC Press,

1997

McGraw- Hill,

1998, ISBN

0-07-290722-3



Subject Name: Building Automation System


Course Objectives:

Course Outcomes


1.

Identify and describe the major components in a

BAS: ATC, Lighting, Security,Fire and

Safety,Surveillance

2. Identify and describe the basic mechanical

components and controls in anHVAC controlsys

3. Describe and explain the basic functions of

DDCsystem

4. Reference codes and standards applicable toBAS

5. Describe and explain HMIbasics

6. Describe networking as used in BASsystems

7. Explain the process of implementingBAS&Energy

ConservationStrategies

8. Justify control components for projectwork

9. Know where to look for additionalreferences

Course

outcome

CO1 Basic learning of building automation systems (L1 &L2)

CO2 Building the electrical building syst

new standards(L3)

CO3 Applying the knowledge in managing, buying and upgrading(L5)

CO4 Executions of the pre


Communication

Subject Name: Building Automation System

L-T-P

Course Objectives

Identify and describe the major components in a

BAS: ATC, Lighting, Security,Fire and

Safety,Surveillance

Identify and describe the basic mechanical

components and controls in anHVAC controlsystem

Describe and explain the basic functions of

DDCsystem

Reference codes and standards applicable toBAS

Describe and explain HMIbasics

Describe networking as used in BASsystems

Explain the process of implementingBAS&Energy

ConservationStrategies

Justify control components for projectwork

Know where to look for additionalreferences

Descriptions

Basic learning of building automation systems (L1 &L2)

Building the electrical building systems and knowledge about the

new standards(L3)

Applying the knowledge in managing, buying and upgrading(L5)

Executions of the pre-planned automations(L6)


P-C: 3-0-0-3

Identify and describe the basic mechanical

tem

Describe and explain the basic functions of

ems and knowledge about the

Applying the knowledge in managing, buying and upgrading(L5)



UNIT

I

Introduction To Building Automation System

HVAC, waterside system

common functions of BAS, Parts of BAS, BAS hardware, common

protocols of BAS, common control modes. (Chapter 1 & 2 from

Prescribed text book)

II

Smart building systems

Types of smart building system, conveyance

fire alarms systems, lightening systems, maintenance management

systems, metering, scheduling systems, security, windowsystems.

(Chapter 3 from Prescribed text book)

III

IT Fundamentals, Electrical Fundamentals, Standards And

Organizations Functioning of IT organizations, parts of IT puzzle,

righting the remote connections, cyber security the fluff and real,

electrical fundamentals, energy management, professional

organizations, ASHRAE, BOMA, CABA, USGBC, slandered

organizations, ASHRAE 55

90.1-2013

(Chapter 4, 5 & 6 from Prescribed text book)

IV

The Art Of Buying & Upgrading Stuff

Public and private procurement, procurement processes, bid forms

& segmenting costs, how buildings are built, how

executed, delivery and funding models for construction event,

selecting tier3 contractor, project 3 delivery models, project delivery

models, design phases, the project process,

(Chapter 7 & 8 from Prescribed text book)

V

Upgrading The Bas

Upgrading BAS, making the decision, planning the upgrade, how to

execute upgrade project, advanced topics,



Communication

Description

Introduction To Building Automation System

HVAC, waterside systems, HVAC components, refrigeration cycles,



Smart building systems

Types of smart building system, conveyance control, Digital signage,





rganizations Functioning of IT organizations, parts of IT puzzle,




, ASHRAE 55- 2013, ASHRAE 62.1-2016 & ASHRAE

(Chapter 4, 5 & 6 from Prescribed text book)

The Art Of Buying & Upgrading Stuff


& segmenting costs, how buildings are built, how project is



models, design phases, the project process,

(Chapter 7 & 8 from Prescribed text book)

grading BAS, making the decision, planning the upgrade, how to

execute upgrade project, advanced topics,



Hours

s, HVAC components, refrigeration cycles,



8

control, Digital signage,



8


rganizations Functioning of IT organizations, parts of IT puzzle,




2016 & ASHRAE

8


project is



8

grading BAS, making the decision, planning the upgrade, how to

7






Text Books:

Sl

No

Text Book title

1 Building automation

systems A to Z,

Reference Book:

Sl

No

Text Book title

1 Understanding Building

Automation Systems: Direct

Digital Control, Energy

2 Building

Automation:Communication

Systems withEIB/KNX, LON

and BACnet

3 Intelligent Buildings and

BuildingAutomation

4 HVAC Control Systems


Communication


swer one full question of his/her choice.

Text Book title Author Volume and Year of Edition

Phil Zito Create space independent Publishing

platform, North Charleston, South

California, (c)2016.


Edition

Understanding Building

Automation Systems: Direct

Digital Control, Energy

Reinhold A. Carlson

and Robert A. Di

Giandomenico

R.S. Means

CompanyLtd; edition

(1991-10

Automation:Communication

Systems withEIB/KNX, LON

Christof H

Bren,Merz, and

Thomas Hansemann

Springer Science&

Business Media,12

Jun-2009

Intelligent Buildings and Shengwei Wang Routledge; 1 edition (4

Nov. 2009)

HVAC Control Systems Ronnie J. Auvil American Technical

Publishers,2013



Create space independent Publishing

platform, North Charleston, South

Volume and Year of

R.S. Means

CompanyLtd; edition

10-01)(1800)

Springer Science&

Business Media,12-

2009

Routledge; 1 edition (4

Nov. 2009)

American Technical

Publishers,2013



Subject Name: DSP Algorithms and Architecture


Course Objectives:

Course Outcomes:


1 To understand architecture of DSP processor.

2 To design signal processing algorithms using assembly

language programming onTMS320C54xx processor.

Course

outcome

Descriptions

CO1 Analyze basic signal processing concepts and acquire knowledge of

DSP computational building blocks.

CO2 Identify and apply the architectural features of TMS320C54xx to

provide efficient design solutions.

CO3 Develop ALP of basic DSP algorithm

processors.

CO4 Design an interfacing circuit to connect DSP processor to memory

and peripherals.


Communication

Subject Name: DSP Algorithms and Architecture

Subject Code: EC7PE33 L-T-P-C: 3 0 0 3

Course Objectives

To understand architecture of DSP processor.

To design signal processing algorithms using assembly


Analyze basic signal processing concepts and acquire knowledge of

DSP computational building blocks.

Identify and apply the architectural features of TMS320C54xx to

provide efficient design solutions.

Develop ALP of basic DSP algorithms using TMS320C54XX DSP

Design an interfacing circuit to connect DSP processor to memory

and peripherals.


C: 3 0 0 3

To design signal processing algorithms using assembly


Analyze basic signal processing concepts and acquire knowledge of

Identify and apply the architectural features of TMS320C54xx to

s using TMS320C54XX DSP

Design an interfacing circuit to connect DSP processor to memory



UNIT

I

Introduction to Digital Signal Processing: Introduction, A Digital

Signal-Processing System, Th

Sequences, Discrete Fourier Transform and Fast Fourier Transform,

Linear Time Invariant Systems, Digital Filters, Decimation and

Interpolation.

Architectures for Programmable Digital Signal

Introduction, Basic Architectural Features, DSP Computational

Building Blocks.

II

Architectures for Programmable Digital Signal

Devices(Cont--) Bus Architecture and Memory, Data Addressing

Capabilities, Address Generation Unit, Programmability and Progr

Execution, Speed Issues, Features for External Interfacing.

Programmable Digital Signal Processors: Introduction, Commercial

Digital Signal processing Devices, Architecture of TMS320C54xx

Digital Signal Processors, Data Addressing Modes of TMS320C54xx

Processors.

III

Programmable Digital Signal Processors(Cont

TMS320C54xx Processors, Program Control, TMS320C54xx

Instructions and Programming, On

TMS320C54xx Processors, Pipeline Operation of TMS320C54xx

Processors.

IV

Implementations of Basic DSP Algorithms: Introduction, The Q

notation, FIR Filters, IIR Filters, Implementation of FFT Algorithms,

An FFT Algorithm for 8 point DFT Computation, A butterfly

Computation, overflow and scaling, Bit

FFT Implementation on the TMS320C54xx,Computation of the Signal

Spectrum.

V

Interfacing Memory & Parallel I/O Peripherals to programmable DSP

Devices: Introduction, Memory Space Organization, External Bus

Interfacing Signals, parallel I

Interrupts, I/O. DMA.A Speech Processing System, An Image


Communication

Description


Processing System, The Sampling Process, Discrete Time



Architectures for Programmable Digital Signal-Processing Devices:

n, Basic Architectural Features, DSP Computational

Architectures for Programmable Digital Signal-Processing

) Bus Architecture and Memory, Data Addressing

Capabilities, Address Generation Unit, Programmability and Progr

Execution, Speed Issues, Features for External Interfacing.




Programmable Digital Signal Processors(Cont--)Memory Space of


Instructions and Programming, On-Chip peripherals. Interrupts of


Implementations of Basic DSP Algorithms: Introduction, The Q



Computation, overflow and scaling, Bit-Reversed Index Generation,




Interfacing Signals, parallel I/O Interface, Programmed I/O,



Hours


e Sampling Process, Discrete Time



Processing Devices:

n, Basic Architectural Features, DSP Computational

7

Processing

) Bus Architecture and Memory, Data Addressing

Capabilities, Address Generation Unit, Programmability and Program




8

)Memory Space of


Chip peripherals. Interrupts of


8

Implementations of Basic DSP Algorithms: Introduction, The Q-



ndex Generation,


8



/O Interface, Programmed I/O,


8



Processing System.



answer one full question of his/her c

Text Books:


1 Digital Signal Processing

Implementations using DSP

Microprocessors with examples from

TMS320C54XX

Reference Books:


1

Texas Instruments TMS320C54XX

DSP Reference Set CPU and

peripherals

2


DSP Reference Set Mnemonic

Instruction

3 Digital Signal Processing: A

Practical Approach

4 Digital signal processors.


Communication




of Edition

Digital Signal Processing

Implementations using DSP

Microprocessors with examples from

TMS320C54XX

Avatar Singh and S

Srinivasan.

Cengage Learning

Eleven

Reprint 2011.



DSP Reference Set CPU and

peripherals


DSP Reference Set Mnemonic

Instruction Set.

Digital Signal Processing: A

Practical Approach

Ifeachor E.C., Jervis

B.W. Education 2002,

Digital signal processors. B Venakataramani

and M. Bhaskar.



Volume and Year

of Edition

Cengage Learning

Eleventh Indian

Reprint 2011.

Volume and Year

of Edition

Vol 1, 2001

Vol 2,2001

2e, Pearson

Education 2002,

TMH, 2002,



Subject Name: Essentials Of Information Technology


Course Objectives:

Course Outcomes


1 To introduce the concept of Internet, Networks and

its working principles.

2 To know scripting langu

3 To understand various applications related to

Information Technology

Course

outcome

Descriptions

CO1 Describe computer hardware/software topics for information

technologies systems and processing concepts.(L1)

CO2 Explain computer and technology related issues, operating system

functions and concepts.(L2)

CO3 Outline applications for spread sheets word processing, databases

and electronic presentations.(L4)


Communication

Subject Name: Essentials Of Information Technology

L-T

Course Objectives

To introduce the concept of Internet, Networks and

its working principles.

To know scripting languages

To understand various applications related to

Information Technology

Describe computer hardware/software topics for information

technologies systems and processing concepts.(L1)

n computer and technology related issues, operating system

functions and concepts.(L2)

Outline applications for spread sheets word processing, databases

and electronic presentations.(L4)


T-P-C: 3-0-0-3

To introduce the concept of Internet, Networks and

To understand various applications related to

Describe computer hardware/software topics for information

n computer and technology related issues, operating system

Outline applications for spread sheets word processing, databases



UNIT

I

Introduction to computer sy

Various hardware components

units-Central processing Unit

and its classifications. Operating systems concepts Introduction

Memory management

Communication –Dead locks

II

Problem solving Techniques

computational problem and its classification

Introduction to algorithms

flowchart –Flowchart implementation through RAPTOR tool

and sorting algorithms

structures-Basic Data Structures

III

Programming Basics:-

Pseudo Code-Basic programming concepts

structures-Introduction and Demonstration of 1

Array –Searching and sorting techniques

memory references in arrays

Optimization techniques.

Structured programming

Introduction to software Development lifecycle

standards and Best Practices

IV

Project-Project Specification

Detailed design document, Unit Test plan and Integrated Test plan

Coding and Unit Testing activities

Evaluation.


Communication

Description

Introduction to computer systems: Basics of Computer systems

Various hardware components-Data storage and various memory

Central processing Unit—Execution cycle-Introduce to software

and its classifications. Operating systems concepts Introduction

Memory management –process management –Interprocess

Dead locks-File management –Device management.

Problem solving Techniques –Introduction to problem solving

computational problem and its classification –Logic and its types

Introduction to algorithms –Implementation of algorithms using

Flowchart implementation through RAPTOR tool-Searching

and sorting algorithms-Introductions and classification to Data

Basic Data Structures –Advanced Data Structures.

-Introduction to programming Paradigms and

Basic programming concepts-Program life cycle-control

Introduction and Demonstration of 1-D Array and 2-D

Searching and sorting techniques-Demonstration concept of

memory references in arrays-String-compiler concepts-ode


Structured programming –Functions-Structures-File Handling-

Introduction to software Development lifecycle-Industry coding

standards and Best Practices-Testing and Debugging –Code Review.

Project Specification –Preparation of High level design and

Detailed design document, Unit Test plan and Integrated Test plan

Coding and Unit Testing activities-Integration Testing-Project


Hours

stems: Basics of Computer systems-

Data storage and various memory

Introduce to software

and its classifications. Operating systems concepts Introduction –

Interprocess

Device management.

8

Introduction to problem solving-

Logic and its types-

ation of algorithms using

Searching

Introductions and classification to Data

7

to programming Paradigms and

control

D

Demonstration concept of


Code Review.

8

Preparation of High level design and

Detailed design document, Unit Test plan and Integrated Test plan-

8



V

RDBMS –data processing

modeling concept-notations

design-normalization, L

tatements Joins –Sub queries




Text Books:

Sl

No

Text Book title

1 Structured Computer

Organization ,

2 Operating Systems concept

3 Data Structures and

Algorithms ,

Reference Book:


1 Data Structures

2

Algorithms and data

structures the Science

of computing

3 ANSI C language ,


Communication

data processing –the database technology-data models,

notations-Extended ER features, gical database

normalization, L-DDL statements –DML Statements –DCL

Sub queries –Views atabase design Issues.



Text Book title Author Volume and Y

Edition

Andrew .S

Tanenbaum,

PHI, 4th edition ,1999.

Operating Systems concept Silberschatz and

Galvin

John Wiley Sons, 6

edition

Alfred V.Aho,

Ullman

Pearson; 1st edit

(January 11, 1983)


Lipschutz, Seymour

& G.A.V POai Tata McGraw –Hill

Algorithms and data

structures the Science Baldwin, Douglas &

Scragg,Greg W. Dreamtech

Kernighan ., Ritchie

Prentice Hall of India, New

Delhi, 1992Yashwant

Kaniter,Let US C, IInd edition.


data models,

Extended ER features, gical database

DCL

8


Volume and Year of

edition ,1999.

John Wiley Sons, 6th

Pearson; 1st edition

(January 11, 1983)


Hill

Prentice Hall of India, New

Delhi, 1992Yashwant

Kaniter,Let US C, IInd edition.



Subject Name: COMPUTER COMMUNICATION NETWORK LAB

Subject Code: EC7L01

Course Outcomes:

I. Implement the following in C Programming:

1. Write a program for a HLDC frame to perform

a. Bit Stuffing and Destuffing

2. To Simulate Data Encryption and Decryption using Substitution Method

3. To Simulate Data Encryption

4. To Simulate Dijkstra’s Algorithm to compute shortest path.

II. Simulation Experiments using Network simulator tool NS2/ NS3/ OPNET Riverbed

(or any other equivalent tool)

1. Implement point to point network wi

by changing the parameter to determine the number of packets sent by UDP. Study

and analyze the QOS (throughput, delay etc.).

2. Implement point to point network with links between nodes and apply TCP agent by

changing the parameter to determine the number of packets sent by TCP. Study and

analyze the QOS (throughput, delay etc.).

Course

outcome Descriptions

CO1 Construct the codes in C / Python language to realize and

interpret the protocols of different layers in OSI Model .(L2)

CO2

Design a suitable networ

tool NS2/ NS3/ OPNET Riverbed (or any other equivalent tool) to

analyze the results.

CO3 Verify, Interpret and record the experimental data, analyze the

results, and prepare a formal laboratory report.(L5)


Communication

COMPUTER COMMUNICATION NETWORK LAB

01 L-T-P-C: 0-0-3

Description

I. Implement the following in C Programming:

1. Write a program for a HLDC frame to perform

a. Bit Stuffing and Destuffing b. Character Stuffing


3. To Simulate Data Encryption and Decryption using Transposition Method

4. To Simulate Dijkstra’s Algorithm to compute shortest path.


1. Implement point to point network with links between nodes and apply UDP agent


and analyze the QOS (throughput, delay etc.).


nging the parameter to determine the number of packets sent by TCP. Study and

analyze the QOS (throughput, delay etc.).

Construct the codes in C / Python language to realize and


Design a suitable network and simulate using a Network simulator


analyze the results.

Verify, Interpret and record the experimental data, analyze the

results, and prepare a formal laboratory report.(L5)


3-1.5


and Decryption using Transposition Method


th links between nodes and apply UDP agent



nging the parameter to determine the number of packets sent by TCP. Study and

Construct the codes in C / Python language to realize and


k and simulate using a Network simulator


Verify, Interpret and record the experimental data, analyze the



3. Create and simulate the Star topology using 6 nodes using Opnet Riverbed

III. Socket programming using Python language: Write a Cli

program to send a message using Python.

Subject Name: Power Electronics Lab

Subject Code: EC7L02

Department: Electronics & Communication Engineering

Course Objectives :

Course Outcomes

At the end of this course, students will be able to

List of Experiments.

1. Static characteristics of SCR

2. Static characteristics of MOSFET / IGBT.

3. .Controlled HWR and FWR using RC triggering circuit


1 To analyze & study the behavior (V

of power devices.

2 To understand the performances of power electronics

(power converters) applications.

Course outcome

Descriptions

CO1

Analyze the concepts & working operation of power electronics

devices & circuits.(L1)

CO2 Summarize the various Power Converters. (L3)

CO3 Interpret the various triggering & commutation circuits (L2)


Communication


III. Socket programming using Python language: Write a Client and Server socket

program to send a message using Python.

Power Electronics Lab

L-T-P-C: 0 0 3 1.5

onics & Communication Engineering

At the end of this course, students will be able to

Description

Static characteristics of SCR , Diac &TRIAC.

Static characteristics of MOSFET / IGBT.

.Controlled HWR and FWR using RC triggering circuit

Course Objectives

To analyze & study the behavior (V-I characteristics)

of power devices.

To understand the performances of power electronics

(power converters) applications.


devices & circuits.(L1)

Summarize the various Power Converters. (L3)

the various triggering & commutation circuits (L2)



ent and Server socket

0 0 3 1.5

I characteristics)

To understand the performances of power electronics


the various triggering & commutation circuits (L2)



4. UJT firing circuit for HWR and FWR circuits.

5. AC voltage controller using Triac & Diac combination.

6. Single phase FWR circuit with R and R

7. Step down chopper (Oscillation Chopper) for both constant frequency and

variable frequency operations.

8. Speed control of Universal motor & Induction motor. .


Prepare the question slip for the conduction of experiment.

Text Books:

Sl No

Text Book title

1 Power Electronics

2 Power Electronics

Reference Book:

Sl No

Text Book title

1 Thyristoriized Power Controllers


Communication

UJT firing circuit for HWR and FWR circuits.

AC voltage controller using Triac & Diac combination.

Single phase FWR circuit with R and R-L loads.

tep down chopper (Oscillation Chopper) for both constant frequency and

variable frequency operations.

Speed control of Universal motor & Induction motor. .

Prepare the question slip for the conduction of experiment.

Author Volume and Year of

Edition

Power Electronics M. H. Rashid 4th edition, PHI / Pearson publisher

Power Electronics M. D. Singh and

Kanchandani K.B

TMH publisher, 2Ed.4th reprint 2009.


ized Power Controllers G. K. Dubey S. R.

Doradla, A. Joshi

and Rmk Sinha

New

international (P) ltd

reprint 2005.


tep down chopper (Oscillation Chopper) for both constant frequency and


edition, PHI / Pearson publisher

2013.

TMH publisher, 2nd Ed.4th reprint 2009.

2007


age

international (P) ltd

reprint 2005.



Subject Name: PROJECT WORK PHASE

Subject Code: EC7PW01

Course Outcomes:

1. Students shall carry out a detailed survey on the Area and the Topic on which they

are interested to do the Project work. Students are expected to prepare documentation

and submit three different Synopses to the Evaluation Committee.

2. Evaluation Committee will review the synopsis and suggest suitable area for

project. If project proposals are not to the expected standards or outdates then

recommend the students resubmit the refined synopsis.

3. Students are expected to give a detailed presentatio

justify the panel members to start their project work.

4. Presentation consists of Basic Overview of the Project which includes Introduction,

Literature Survey, Problem Statement, Motivation, Objectives, Requirement Analysis

and Specification, Features of Existing and Proposed System and Algorithms Selected.

Evaluation Scheme - I (50% percent of CIE): Continuous evaluation will be done by

respective Project Guides based on the Regularity, Technical Knowledge and

Competence, Programming Skills, Communication Skills, Demonstration skills,

Collaborative Learning and Documentation Skills of the students. Evaluation Scheme

- II (50% percent of CIE): Students are evaluated by the team of faculty members

based on the Presentation, Techn

Abilities, Questionnaires and overall Performance in the Seminar

Course


CO1 Identify the problem in the specified area by a literature survey

CO2 Analyze the problem and identify the different modules/algorithms to

solve the problems.

CO3 Choose the platform to solve the selected prob


Communication

Subject Name: PROJECT WORK PHASE – I

L-T

Description



and submit three different Synopses to the Evaluation Committee.

Committee will review the synopsis and suggest suitable area for


recommend the students resubmit the refined synopsis.

3. Students are expected to give a detailed presentation on the Topic approved and

justify the panel members to start their project work.



Specification, Features of Existing and Proposed System and Algorithms Selected.

I (50% percent of CIE): Continuous evaluation will be done by


ramming Skills, Communication Skills, Demonstration skills,


II (50% percent of CIE): Students are evaluated by the team of faculty members

based on the Presentation, Technical Competence, Slides Preparation, Team Working

Abilities, Questionnaires and overall Performance in the Seminar-1 and Seminar

Identify the problem in the specified area by a literature survey

Analyze the problem and identify the different modules/algorithms to

solve the problems.

Choose the platform to solve the selected problem.


T-P-C: 0-8-0-4



Committee will review the synopsis and suggest suitable area for


n on the Topic approved and



Specification, Features of Existing and Proposed System and Algorithms Selected.

I (50% percent of CIE): Continuous evaluation will be done by


ramming Skills, Communication Skills, Demonstration skills,


II (50% percent of CIE): Students are evaluated by the team of faculty members

ical Competence, Slides Preparation, Team Working

1 and Seminar-2 of

Identify the problem in the specified area by a literature survey

Analyze the problem and identify the different modules/algorithms to



Project Phase-I.


Communication



Department of Electronics and Communication

Subject Name: Mobile and wireless Communications

Subject Code: EC8T01 L

Course Objectives:

Course Outcomes: At the end of the course, students will be able to discuss

mobile and radio concepts.


1 To understand the basic cellular system concepts.

2 To have an insight into the various propagation

3 To understand the

interference techniques in mobile communication.

4 To have an insight of model of the speech coders used

Course


CO1 To have knowledge of the mobile system specifications

CO2 Identify various propagation effects. and discuss cellular radio

concepts

CO3 Classify multiple access techniques in mobile

CO4 Analyze various methodologies to improve the cellular capacity


and Communication

Mobile and wireless Communications

EC8T01 L-T-P-C: 4-0-0

Course Outcomes: At the end of the course, students will be able to discuss

Course Objectives

To understand the basic cellular system concepts.

To have an insight into the various propagation

To understand the multiple access techniques and


To have an insight of model of the speech coders used

in mobile communication.

To have knowledge of the mobile system specifications

Identify various propagation effects. and discuss cellular radio

Classify multiple access techniques in mobile communication

Analyze various methodologies to improve the cellular capacity


0-4

Course Outcomes: At the end of the course, students will be able to discuss cellular

To understand the basic cellular system concepts.

To have an insight into the various propagation

multiple access techniques and


To have an insight of model of the speech coders used

Identify various propagation effects. and discuss cellular radio

communication

Analyze various methodologies to improve the cellular capacity



UNIT

I

Cellular oncepts- Cell structure, frequency reuse, cell splitting,

channel

assignment, handoff, interference, capacity, power control; Wireless

Standards: Overview of

2G and 3G cellular standards.

II

Signal propagation- Propagation mechanism

diffraction and

scattering, large scale

Fading channels-

Multipath and small scale fading

channel models,

narrowband and wideband fading models, power delay profile, average

and rms delay spread,

coherence bandwidth and coherence time, flat and frequency selective

fading, slow and fast

fading, average fade duration and level crossing rate.

III

Capacity of flat and frequency selective channels. Antennas

for mobile

terminal- monopole antennas, PIFA, base station antennas and

arrays.Multiple access schemes

Modulation schemes-

GMSK, multicarrier modulation, OFDM.

IV

Receiver structure- Diversity

RAKE

receiver, equalization: linear

diversity-Alamouti scheme MIMO and space time signal processing,

spatial multiplexing, diversity/multiplexing tradeoff

V

Performance measures

rate.System examples

WCDMA


and Communication

Description

Cell structure, frequency reuse, cell splitting,


Standards: Overview of


Propagation mechanism- reflection, refraction,

scattering, large scale signal propagation and lognormal shadowing.

Multipath and small scale fading- Doppler shift, statistical multipath


and rms delay spread,

h and coherence time, flat and frequency selective

fading, average fade duration and level crossing rate.

Capacity of flat and frequency selective channels. Antennas- Antennas

monopole antennas, PIFA, base station antennas and

arrays.Multiple access schemes- FDMA, TDMA, CDMA and SDMA.

BPSK, QPSK and variants, QAM, MSK and

GMSK, multicarrier modulation, OFDM.

Diversity receivers- selection and MRC receivers,

receiver, equalization: linear-ZFE and adaptive, DFE. Transmit

Alamouti scheme MIMO and space time signal processing,

spatial multiplexing, diversity/multiplexing tradeoff

Performance measures- Outage, average snr, average symbol/bit error

rate.System examples- GSM, EDGE, GPRS, IS-95, CDMA 2000 and


Hours



10

reflection, refraction,

signal propagation and lognormal shadowing.

Doppler shift, statistical multipath


h and coherence time, flat and frequency selective

12

Antennas

FDMA, TDMA, CDMA and SDMA.

BPSK, QPSK and variants, QAM, MSK and

10

selection and MRC receivers,

Alamouti scheme MIMO and space time signal processing,

10

utage, average snr, average symbol/bit error

95, CDMA 2000 and

10






Text Books:

Sl

No

Text Book title

1 Mobile Cellular

Telecommunications Systems,.

2 Mobile communications Design

Fundamentals,.

3 Mobile Radio Communications

Reference Book:

Sl

No

Text Book title

1 CDMA: Principles of Spread

Spectrum Communications


and Communication


his/her choice.


Year of Edition

Telecommunications Systems,.

WCY Lee McGraw Hill,

1990

Mobile communications Design WCY Lee Prentice Hall,

1993

Mobile Radio Communications Aymond Steele IEEE Press,

New York, 1992


Edition

CDMA: Principles of Spread

Spectrum Communications

AJ Viterbi Addison Wesley,



Volume and

Year of Edition

McGraw Hill,

1990

Prentice Hall,

1993

IEEE Press,

New York, 1992

Volume and Year of

Addison Wesley, 1995



Subject Name: BUSINESS MANAGEMENT FOR ENTREPREUNERS

Subject Code: EC8T02 L

Course Objective:

Course Outcomes

Sl.No Course Objective

1

The course also aims at

concepts of managing an enterprise, the ideas of

becoming an entrepreneur, its development phase

etc. enabling them to have an idea about its

importance in nation building.

Course

outcome

CO1

Describe the basic principles and concepts of management. To give

a brief idea about planning, organizing and staffing for an

enterprise.

CO2

Demonstrate the meaning, functions, types and roles of an

entrepreneur and describe various institutional sup

to prepare small scale industries and Prepare the project report


and Communication

Subject Name: BUSINESS MANAGEMENT FOR ENTREPREUNERS

Subject Code: EC8T02 L-T-P-C:

Course Objective

The course also aims at inculcating the ideas and

concepts of managing an enterprise, the ideas of

becoming an entrepreneur, its development phase

etc. enabling them to have an idea about its

importance in nation building.

Descriptions




entrepreneur and describe various institutional support and also



C: 3-0-0-3




port and also




UNIT

I

BASICS OF MANAGEMENT: Introduction

characteristics of Management, Scope and functional areas of

management - Management as a science, art or profession

Management & Administration

Management, and Development of Management Thought early

management approaches

II

PLANNING, ORGANIZING AND STAFFING: Nature, importance and

purpose of planning process Objectives

only) - Decision making

& planning premises -

organization Principles of organization Types of organization

mentation Committees

authority and responsibility

(Meaning only) Nature and importance of Staffing

Selection & Recruitment

III

DIRECTING & CONTROLLING: Meaning and nature of directing

Leadership styles, Motivation Theories, Communication

importance – Coordination, meaning and importance and Techniques

of Co - ordination. Meaning

sound control system

IV

ENTREPRENEURSHIP, SSI and PROJECT: Meaning of Entrepreneur;

Evolution of the Concept, Functions of an Entrepreneur, Types of

Entrepreneur,. Concept of

Entrepreneurship; Stages in entrepreneurial process; Role of

entrepreneurs in Economic Development; Entrepreneurship in

India;SMALL SCALE INDUSTRY: Definition; Characteristics; Need and

rationale: Objectives; Scope; role o

Advantages of SSI Steps to start an SSI

SSI


and Communication

Description

BASICS OF MANAGEMENT: Introduction - Meaning - nature and

characteristics of Management, Scope and functional areas of

Management as a science, art or profession

Management & Administration - Roles of Management, Levels of

Management, and Development of Management Thought early

management approaches - Modern management approaches


purpose of planning process Objectives - Types of plans (Meaning

Decision making – Importance of planning - steps in planning

- Hierarchy of plans.: Nature and purpose of

organization Principles of organization Types of organization - Depart

mentation Committees – Centralization Vs Decentralization of

authority and responsibility - Span of control - MBO and MBE

(Meaning only) Nature and importance of Staffing - Process of

Selection & Recruitment

DIRECTING & CONTROLLING: Meaning and nature of directing

Leadership styles, Motivation Theories, Communication - Meaning and

Coordination, meaning and importance and Techniques

ordination. Meaning and steps in controlling - Essentials of a

sound control system -Methods of establishing control



Entrepreneur,. Concept of Entrepreneurship - Development of

Entrepreneurship; Stages in entrepreneurial process; Role of

entrepreneurs in Economic Development; Entrepreneurship in


rationale: Objectives; Scope; role of SSI in Economic Development.

Advantages of SSI Steps to start an SSI - Government policy towards


Hours

nature and

Roles of Management, Levels of

7


Types of plans (Meaning

steps in planning

Hierarchy of plans.: Nature and purpose of

Depart

7

DIRECTING & CONTROLLING: Meaning and nature of directing -

Meaning and

Coordination, meaning and importance and Techniques

Essentials of a

8




f SSI in Economic Development.

Government policy towards

8



V

PREPARATION OF PROJECT: Meaning of Project; Project

Identification; Project Selection; Project Report; Need and Significance

of Report; Contents; formulation; Guidelines by Planning Commission

for Project report; Network Analysis; Errors of Project Report;

Appraisal




Text Books:

Sl

No

Text Book title

1 Principles of Management:

2 Entrepreneurship Development

Reference Book:

Sl

No

Text Book title

1 Management Fundamentals

Concepts, Application, Skill

Development -


and Communication




for Project report; Network Analysis; Errors of Project Report;Project




of Edition

Principles of Management: P.C. Tripathi, P.N.

Reddy

Tata McGraw Hill,

2007.

Entrepreneurship Development S S Khanka S Chand & Co,

2007


of Edition

Management Fundamentals

Concepts, Application, Skill

Robert Lusier, Thomson, 2007.





Project

9


Volume and Year

of Edition

Tata McGraw Hill,

2007.

S Chand & Co,

2007

Volume and Year

of Edition

Thomson, 2007.



Subject Name: APPLIED EMBEDDED SYSTEMS

Subject Code: EC8PE41 L

Course Objective:

Course Outcomes


1

The objective of the course is to learn and

understand the implementation and applications of

the embedded system.

2 Discuss the historical background of Real

systems and its classifications.

3

The course also covers the various software

development approaches and a operating system

services required. Hence the course is the unified

approach of both hardware and software in

designing the embedded system.

4 Discuss the languages to develop

Time Applications.

Course

outcome

Descriptions

CO1 Explain the embedded system concepts and architecture of

embedded systems

CO2 Describe the architecture of PIC microcontroller and write

embedded program for PIC microcontroller.

CO3 Demonstrate the open source RTOS and solve the design issues

for the same.

CO4 Select elements for an embedded systems tool.


and Communication

Subject Name: APPLIED EMBEDDED SYSTEMS

Subject Code: EC8PE41 L-T-P-C:

Course Objective



the embedded system.

Discuss the historical background of Real-time

systems and its classifications.





designing the embedded system.

Discuss the languages to develop software for Real

Time Applications.

Explain the embedded system concepts and architecture of

embedded systems

Describe the architecture of PIC microcontroller and write

program for PIC microcontroller.

Demonstrate the open source RTOS and solve the design issues

Select elements for an embedded systems tool.


C: 3-0-0-3



time





software for Real-

Explain the embedded system concepts and architecture of

Describe the architecture of PIC microcontroller and write

Demonstrate the open source RTOS and solve the design issues



UNIT

I

Introduction to Real-Time Systems: Historical background, Elements

of a Computer Control System, RTS

time Systems, Time Constraints, Classification of Programs. Concepts

of Computer Control: Introduction, Sequence Contro

Supervisory Control, Centralized Computer Control, Hierarchical

Systems. (Text Book 1: 1.1 to 1.6 and 2.1 to 2.6)

II

Embedded controller (PIC) CPU architecture and instruction sets:

Hardware architecture and pipelining, program memory consideration

, Register file structure and Addressing modes, CPU register

,Instruction set, Loop time subroutine, Timer2 and Interrupts:

use interrupt logic,Timer2 Scalar Initialization. External interrupts

and Timers: Timer0 Compare/capture mode ,Timer1/CCP

programmable period scalar. Timer1 and sleep mode, PWM O/P Port B

change interrupts. 10 hrs

(Text Book 2.1 to 2.6, 2.9 to 2.10

III

Computer Hardware Requirements for Real

Introduction, General Purpose Computer, Single Chip Microcomputers

and Microcontrollers, Specialized Pro

Interfaces, Data Transfer Techniques, Communications, Standard

Interface.(Text Book1 : 3.1 to 3.8)

IV

Module-4 Operating Systems: Introduction, Real

OS, Scheduling Strategies, Priority Structures, Task

Scheduler and Real-Time Clock Interrupt Handler, Memory

Management, Code Sharing, Resource Control, Task Co

and Communication, Mutual Exclusion.(Text Book1: 6.1 to 6.11)

V

Embedded RTOS Inter process communication, Process Management,

Timer Functions , Event Functions, Memory management, Device,

File, and IO Subsystems Management, Interrupt Routines in RTOS

environment and handling of interrupt source calls by RTOS,

Introduction to Real Time Operating System, Basic Design Using a

Real Time Operating System, RTOS Task Scheduling Models, Latency,


and Communication

Description

Time Systems: Historical background, Elements

of a Computer Control System, RTS- Definition, Classification of Real


of Computer Control: Introduction, Sequence Control, Loop Control,


Systems. (Text Book 1: 1.1 to 1.6 and 2.1 to 2.6)




,Instruction set, Loop time subroutine, Timer2 and Interrupts: Timer2




change interrupts. 10 hrs

(Text Book 2.1 to 2.6, 2.9 to 2.10, 2.12)

Computer Hardware Requirements for Real-Time Applications:


and Microcontrollers, Specialized Processors, Process-Related


Interface.(Text Book1 : 3.1 to 3.8)

4 Operating Systems: Introduction, Real-Time Multi-Tasking

OS, Scheduling Strategies, Priority Structures, Task Management,

Time Clock Interrupt Handler, Memory

Management, Code Sharing, Resource Control, Task Co-Operation






tion to Real Time Operating System, Basic Design Using a



Hours

Time Systems: Historical background, Elements

Definition, Classification of Real-


l, Loop Control,


11

Hours




Timer2




, 2.12)

11

Hours



11

Hours

Tasking

Management,

Operation


7

Hours





tion to Real Time Operating System, Basic Design Using a


12

Hours



Response Times, Deadline as Performance Metric, Latency and

Deadlines as Performance Metric in Scheduling Models For Periodic,

Sporadic and Aperiodic Tasks, CPU Load as Performance Metric,

Sporadic Task Model Performance Metric. OS security issues. Case

studies.




Text Books:

Sl

No

Text Book title

1 Real-Time Computer Control

2 Design with PIC Microcontrollers

3 Embedded Systems: Architecture

and Programming

Reference Book:

Sl

No

Text Book title

1 PIC microcontroller Mid range

reference manual 2

2 Real-Time Systems Design and

Analysis

3 Real –Time Systems

Subject Name: High Performance Networks


and Communication



ic and Aperiodic Tasks, CPU Load as Performance Metric,


studies.




of Edition

Time Computer Control Stuart Bennet 2nd Edn. Pearson

Education. 2008

Design with PIC Microcontrollers John B Pitman Pearson

Asia

Embedded Systems: Architecture Raj Kamal TMH. 2008


of Edition

PIC microcontroller Mid range

Systems Design and Phillip. A. Laplante second edition,

PHI, 2005

C.M. Krishna,

Kang G. Shin

McGraw

International

Editions, 1997

Subject Name: High Performance Networks




ic and Aperiodic Tasks, CPU Load as Performance Metric,



Volume and Year

of Edition

2nd Edn. Pearson

Education. 2008

Pearson Education

TMH. 2008

Volume and Year

of Edition

second edition,

PHI, 2005

McGraw –Hill

International

Editions, 1997




Course Objectives:

Course Outcomes


1 Build the connectivity between different types of

communication networks.

2 Maximizing the

and logical layer connectivity.

3 Compiling the different network control management

techniques, various services and applications etc.

4 Importance between optical connectivity and wireless

connectivity through network

Course outcome Descriptions

CO1 Determine the evaluation of Networking Principles and Layered

Architectures.

CO2 Solve the problems of traffic network of multi

wireless communication.

CO3 Analyze various network models, controls and their applications.

CO4 Interpret the concepts and working modes of OFN (Optical Fiber

Networks), various components, network systems and applications

OFN.


and Communication

EC8PE42 L-T-P-C: 3-0-0-3

Course Objectives

Build the connectivity between different types of

communication networks.

Maximizing the high-performance estimation through physical

and logical layer connectivity.

Compiling the different network control management

techniques, various services and applications etc.

Importance between optical connectivity and wireless

connectivity through network evaluation criterion approach.

Descriptions

Determine the evaluation of Networking Principles and Layered

Architectures.

Solve the problems of traffic network of multi-stage networks using

wireless communication.

Analyze various network models, controls and their applications.

Interpret the concepts and working modes of OFN (Optical Fiber



3

estimation through physical

evaluation criterion approach.

Determine the evaluation of Networking Principles and Layered

stage networks using

Analyze various network models, controls and their applications.

Interpret the concepts and working modes of OFN (Optical Fiber




UNIT

I Introduction: Networking principles, Future networks Internet, Pure

ATM Network, Cable Network and Wireless. Network services and

Layered Architecture, Applications, Traffic characterization and

quality of services, Network services, High performance netwo

Network Elements., Layered applications, Open data network model,

Network architectures, Network bottlenecks.

II Internet and TCP/IP Networks: IPV4 Reliable

Mobile IP, TCP and UDP

and limitations, Performance of TCP/IP, Networks, Performance of

circuit switched Networks

III ATM And Wireless Network: ATM: Main features of ATM, Addressing,

signaling and Routing, ATM header

Internetworking with ATM

IV Wireless Networks: Link level design, Channel Access, Network design,

Wireless networks today, Future networks, ad hoc networks, High

speed Digital cellular, Home RF and Bluetooth.

Network controls:Control of networks, Objectives and methods of

control, Circuit switched networks, datagram Networks, Network

economics, Derived demand for network services,ISPs, subscriber

demand model.

V Optical Networks: Optical Links, WDM systems, Optical

connects, Optical LANs, Optical paths and Networks. SONET, DWDM,

FTH, DSL, Intelligent networks CATV





and Communication

Description

Introduction: Networking principles, Future networks Internet, Pure


Layered Architecture, Applications, Traffic characterization and

quality of services, Network services, High performance networks,



Internet and TCP/IP Networks: IPV4 Reliable multicast, Multicast

Mobile IP, TCP and UDP, Applications, FTP, SMTP. Internet success


circuit switched Networks

ATM And Wireless Network: ATM: Main features of ATM, Addressing,

signaling and Routing, ATM header structure, ATM AAL,

Internetworking with ATM

Wireless Networks: Link level design, Channel Access, Network design,


speed Digital cellular, Home RF and Bluetooth.

ontrol of networks, Objectives and methods of



Optical Networks: Optical Links, WDM systems, Optical cross


FTH, DSL, Intelligent networks CATV




Hours

Introduction: Networking principles, Future networks Internet, Pure


rks,



9

Hours

multicast, Multicast IP,

, Applications, FTP, SMTP. Internet success


7

Hours

ATM And Wireless Network: ATM: Main features of ATM, Addressing, 7

Hours

Wireless Networks: Link level design, Channel Access, Network design,


ontrol of networks, Objectives and methods of



9

Hours


7

Hours




Text Books:

Sl

No

Text Book title

1 High Performance

CommunicationNetworks

2 High-Speed Networks and Internet:

Performance and Quality of Service

Reference Book:

Sl

No

Text Book title

1 optical fiber communication

2 optical fiber communication

3 Communication Networks

4 Data communication and

networking

5 ATM Networks


and Communication


of Edition

CommunicationNetworks

Jean Walrand and

Pravin variya

Elsevier, 2nd

Edition 2000

Speed Networks and Internet:

Performance and Quality of Service

William Stallings Pearson Edu.,

2001


of Edition

optical fiber communication Gerd Keiser MC Graw Hill

International

edition, third

edition

optical fiber communication John M Senior,

PHI limited

third edition

Networks Leon Gracia,

Widjaja

Tata Mc Graw

Hill, New Delhi,

2000.

Data communication and Behroz a. Forouzan Tata MC Graw

Hill, New Delhi

SumitKasera,

Pankaj Sethi

Tata Mc Graw

Hill, New Delhi ,

2000


Volume and Year

of Edition

Elsevier, 2nd

Edition 2000

Pearson Edu.,

2001

Volume and Year

of Edition

MC Graw Hill

International

edition, third

edition

third edition

Tata Mc Graw –

Hill, New Delhi,

2000.

Tata MC Graw –

Hill, New Delhi

Tata Mc Graw-

Hill, New Delhi ,

2000



Subject Name: CAD for VLSI


Course Objectives:

Course Outcomes:

Sl. No

1 To make the students learn the different phases of CAD for digital

design.

2 To learn the fundamental concepts of CAD and to establish capability for

CAD tool.

3 To identify and develop an appropriate algorithms for different VLSI

system issues.

Course

Outcome

CO1

Identify the phases of CAD for

logic simulation to physical design, including test and

verification.(L1)

CO2

Demonstrate the knowledge and understanding of fundamental

concepts in CAD and to establish capability for CAD tool

development and

CO3 Apply the appropriate algorithms and Cad tools for different VLSI

problems.(L3)


and Communication

Subject Code: EC8PE43 L-T-P-

Course Objectives

To make the students learn the different phases of CAD for digital

To learn the fundamental concepts of CAD and to establish capability for

To identify and develop an appropriate algorithms for different VLSI

Descriptions

Identify the phases of CAD for digital electronic systems, from digital


verification.(L1)



development and enhancement.(L3)

Apply the appropriate algorithms and Cad tools for different VLSI


-C: 3 0 0 3

To make the students learn the different phases of CAD for digital

To learn the fundamental concepts of CAD and to establish capability for

To identify and develop an appropriate algorithms for different VLSI

digital electronic systems, from digital




Apply the appropriate algorithms and Cad tools for different VLSI



UNIT

I Introduction To VLSI Methodologies: VLSI Physical Design Automation

- Design and Fabrication of VLSI Devices

impact on Physical Design.

II A Quick Tour Of VLSI Design Automation Tools: Data structures and

Basic Algorithms, Algorithmic Graph theory and computational

complexity.

III General Purpose Methods For Combinational Optimization:

partitioning, floor planning and pin assignment, placement, routing.

IV Simulation-Logic Synthesis: Verification

Compaction. Physical Design Automation of FPGAs, MCMS.

V Chip Input and Output Circuits: ESD Protection, Input Circuits,

Output Circuits and noise, On

Distribution, Latch-up and its prevention.


From each unit, two questions of 20 marks each have to be given. The student has to answer

one full question of his/her choice.

Text Books:

Sl.

No Text Book title

1 Algorithms for VLSI Physical

Design Automation

2 Algorithms for VLSI Design

Automation

Reference Books:

Sl. No Text Book title

1 VLSI Physical Design


and Communication

Description

Introduction To VLSI Methodologies: VLSI Physical Design Automation

Design and Fabrication of VLSI Devices - Fabrication process and its

impact on Physical Design.

A Quick Tour Of VLSI Design Automation Tools: Data structures and

Basic Algorithms, Algorithmic Graph theory and computational

General Purpose Methods For Combinational Optimization:

partitioning, floor planning and pin assignment, placement, routing.

Logic Synthesis: Verification-High level synthesis -

Compaction. Physical Design Automation of FPGAs, MCMS.

Chip Input and Output Circuits: ESD Protection, Input Circuits,

Output Circuits and noise, On-chip clock Generation and

up and its prevention.



Author Volume and Year of Edition

Algorithms for VLSI Physical Naveed

Shervani

3rdEdition, 2005, Springer

International Edition.

Algorithms for VLSI Design S. H. Gerez 1999, Wiley student Edition,

John Wiley and Sons (Asia)

Pvt. Ltd.


Edition

VLSI Physical Design Sadiq M Sait, I.E.E.E.Press, 1995


Hours

Introduction To VLSI Methodologies: VLSI Physical Design Automation

process and its 08

A Quick Tour Of VLSI Design Automation Tools: Data structures and

07

partitioning, floor planning and pin assignment, placement, routing. 08

08

Chip Input and Output Circuits: ESD Protection, Input Circuits,

08



Edition, 2005, Springer

International Edition.

1999, Wiley student Edition,

John Wiley and Sons (Asia)

Volume and Year of

Edition

I.E.E.E.Press, 1995



Automation-Theory and

Practice

2 VLSI Physical Design

Automation


and Communication

Theory and Habib Youssef

VLSI Physical Design Sung Kyu Lim Springer International

Edition.


Springer International



Subject Name: SPEECH PROCESSING


Course Objectives:

Course Outcomes:

Sl. No

1 To understand the characteristics of speech signal,

2 To apply signal processing concepts to speech signal,

3 To get an insight into a few applications of speech processing.

Course

Outcome

CO1

qualitatively describe the mechanisms of human speech production

and how the articulation mode of different classes of speech sounds

determines their acoustic characteristics,

CO2

solve given problems regarding parameter estimation in source

production models

using these models,

CO3

describe and implement methods and systems for efficient

quantization and coding of speech signals, and solve given problems

regarding these methods,

describe and implement methods for

given problems regarding these methods,


and Communication

Subject Name: SPEECH PROCESSING

Subject Code: EC8PE44 L-T-P-

Course Objectives

To understand the characteristics of speech signal,

To apply signal processing concepts to speech signal,

To get an insight into a few applications of speech processing.

Descriptions

describe the mechanisms of human speech production


determines their acoustic characteristics,

solve given problems regarding parameter estimation in source

production models and regarding speech analysis and synthesis

using these models,



regarding these methods,

describe and implement methods for speech enhancement, and solve

given problems regarding these methods,


-C: 3 0 0 3

To get an insight into a few applications of speech processing.

describe the mechanisms of human speech production


solve given problems regarding parameter estimation in source-filter

and regarding speech analysis and synthesis



speech enhancement, and solve



UNIT

I IntroductionProduction and Classification of Speech Sounds: Anatomy

and physiology of speech production, spectrographic analysis of

speech, categorization of speech sounds Digital models for the speech

signal: The acoustic theory of speech production.

II Time domain models for speech processing: Short

average magnitude, average zero

discrimination using energy and zero

estimation using a parallel processing approach, short

autocorrelation function, average magnitude difference function, pitch

period estimation using autocorrelation Short

Fourier transform interpretation, Linear filtering interpretation,

Sampling rates of STFT in time and frequency, Filter bank

method of short-time synthesis, Overlap addition method of short time

synthesis.

III Speech Quantization

optimum quantizer,logarithmic quantizer, adaptive

differential quantizers; Vector quantization

codebook design, codebook types.Scalar Quantization of LPC

distortion measures, Quantization based onreflection coefficient and

log area ratio, bit allocation; Line spe

LSFconversions, quantization based on LSF.

IV Linear Prediction Coding

of LPCencoders and decoders; Voicing detection; Limitations of the

LPC model.Code Excited Linear Prediction

model; Analysis-bysynthesis;Generic CELP encoders and decoders;

Excitation codebook search

method; CELP based on adaptive codebook, Adaptive

Codebook search; Low De

V Speech Coding Standards

G.729standards


and Communication

Description

IntroductionProduction and Classification of Speech Sounds: Anatomy


categorization of speech sounds Digital models for the speech

signal: The acoustic theory of speech production.

Time domain models for speech processing: Short-time energy,

average magnitude, average zero-crossing rate, speech vs. silence

discrimination using energy and zero-crossings, pitch period

estimation using a parallel processing approach, short

elation function, average magnitude difference function, pitch

period estimation using autocorrelation Short-time Fourier analysis:


Sampling rates of STFT in time and frequency, Filter bank summation

time synthesis, Overlap addition method of short time

synthesis.

Speech Quantization- Scalar quantization – uniform quantizer,

optimum quantizer,logarithmic quantizer, adaptive quantizer,

differential quantizers; Vector quantization –distortion measures,

codebook design, codebook types.Scalar Quantization of LPC- Spectral


log area ratio, bit allocation; Line spectral frequency – LPC to

LSFconversions, quantization based on LSF.

Linear Prediction Coding- LPC model of speech production; Structures


Excited Linear Prediction-CELP speech production

bysynthesis;Generic CELP encoders and decoders;

Excitation codebook search – state-savemethod, zero-input zero

method; CELP based on adaptive codebook, Adaptive

Codebook search; Low Delay CELP and algebraic CELP.

Speech Coding Standards-An overview of ITU-T G.726, G.728 and

G.729standards


Hours

IntroductionProduction and Classification of Speech Sounds: Anatomy


categorization of speech sounds Digital models for the speech

10

Hours

time energy,

crossing rate, speech vs. silence

crossings, pitch period

estimation using a parallel processing approach, short-time

elation function, average magnitude difference function, pitch

time Fourier analysis:


summation

time synthesis, Overlap addition method of short time

12

Hours

uniform quantizer,

quantizer,

distortion measures,

Spectral


LPC to

12

Hours

LPC model of speech production; Structures


CELP speech production

bysynthesis;Generic CELP encoders and decoders;

input zero-state

lay CELP and algebraic CELP.

12

Hours

T G.726, G.728 and

G.729standards

6

Hours






Text Books:

Sl.

No Text Book title

1 Digital processing of

speech signals

Reference Books:

Sl. No Text Book title

1

Discrete-time speech signal

processing Principles and Practice

2

Digital Speech

3

Speech Coding Algorithms:

Foundation and Evolution of

Standardized Coders


and Communication



Author Volume and Year of

Edition

Digital processing of Lawrence R. Rabiner

and Ronald W.

Schafer

Second Indian Reprint,

Pearson Education 2005


time speech signal

processing Principles and Practice

Thomas F.

Quatieri

First Indian Reprint,

Pearson Education

2004

A.M.Kondoz by, Second Edition

(Wiley Students

Edition), 2004

Speech Coding Algorithms:

Foundation and Evolution of

Standardized Coders

W.C. Chu Wiley Inter science,

2003



Volume and Year of

Edition

Second Indian Reprint,

Pearson Education 2005

Volume and Year of

Edition

First Indian Reprint,

Pearson Education

by, Second Edition

Students‟

Edition), 2004

Wiley Inter science,



Subject Name: Multirate Systems and Filter Banks


Course Objectives :

Course Outcomes


1 Understand Multirate digital signal processing

principles and its applications.

2

Learn the theory of sampling rate conversion and

develop methods for decimating, interpolating and

changing the sampling rate of the signal and to

develop efficient polyphase implementations of

sampling rate converters.

3

Explain multirate

practical aspects of multirate signal processing and

the applications of filter banks.

Course

outcome

Descriptions

CO1 Distinguish and infer multirate design.(L4)

CO2 Design various

maximally decimated, QMF and PR filterbanks.(L5)

CO3 Apply time domain and frequency domain analysis for multirate

systems.(L3)


and Communication

Subject Name: Multirate Systems and Filter Banks

Subject Code: EC8PE51 L-T-P-C: 4-0-0

Course Objectives

Understand Multirate digital signal processing

principles and its applications.





sampling rate converters.

Explain multirate filter banks, the theoretical and


the applications of filter banks.

Distinguish and infer multirate design.(L4)

Design various multirate filter banks such as cosine modulated,

maximally decimated, QMF and PR filterbanks.(L5)

Apply time domain and frequency domain analysis for multirate


0-4

Understand Multirate digital signal processing





filter banks, the theoretical and


multirate filter banks such as cosine modulated,

Apply time domain and frequency domain analysis for multirate



UNIT

I

Fundamentals of Multi

Basic Multi-rate Operations, Interconnection of Building

Blocks, Poly-phase Representation, Multistage Implementation,

Applications of Multi

Banks.

II

Maximally Decimated Filter Banks

Errors created in the QMF Bank, Alias

Symmetric QMF Banks, M

Representation, Perfect Reconstruction Systems, Alias

Filter Banks, Tree

multiplexers.

III

Para-unitary Perfect Reconstruction Filter Banks :

Lossless Transfer Matrices, Filter Bank Properties induced by

Paraunitariness, Two

FIR Para-Unitary QMF Banks, Transform Coding.

IV

Linear Phase Perfect Reconstruction QMF Banks :

Necessary conditions, Lattice Structures

QMF Banks, Formal Synthesis of Linear Phase FIR PR QMF lattice.

V

Cosine Modulated Filter Banks:

Pseudo-QMF Bank and its Design, Efficient Poly

Properties of Cosine Matrices, Cosine Modulated Perfect

Reconstruction Systems.





and Communication

Description

Fundamentals of Multi-rate Systems :

rate Operations, Interconnection of Building

phase Representation, Multistage Implementation,

Applications of Multi-rate Systems, Special Filters and Filter

Maximally Decimated Filter Banks :

Errors created in the QMF Bank, Alias- free QMF System, Power

Symmetric QMF Banks, M-channel Filter Banks, Poly-

Representation, Perfect Reconstruction Systems, Alias

Filter Banks, Tree-Structured Filter Banks, Trans

unitary Perfect Reconstruction Filter Banks :


, Two-channel Para-Unitary Lattices, M-channel

Unitary QMF Banks, Transform Coding.

Linear Phase Perfect Reconstruction QMF Banks :

Necessary conditions, Lattice Structures for Linear Phase FIR PR


Cosine Modulated Filter Banks:

QMF Bank and its Design, Efficient Poly-phase Structures,

Properties of Cosine Matrices, Cosine Modulated Perfect

Reconstruction Systems.




Hours

rate Operations, Interconnection of Building

phase Representation, Multistage Implementation,

rate Systems, Special Filters and Filter

10

free QMF System, Power

-phase

Representation, Perfect Reconstruction Systems, Alias-free

Structured Filter Banks, Trans-

10


channel 10

for Linear Phase FIR PR


10

phase Structures, 12




Text Books:

Sl

No

Text Book title

1 Multirate Systems and Filter Banks

Reference Book:

Sl

No

Text Book title

1 Multirate Digital Signal Processing

2 Multiresolution and Multirate

Processing: Introduction, Principles

and Applications

3 Modern Spectral Estimation


and Communication


of Edition

Multirate Systems and Filter Banks P.P.Vaidyanathan Prentice Hall. PTR.

1993.


of Edition

Multirate Digital Signal Processing J. Fliege John Wiley 1994

Multiresolution and Multirate Signal

Processing: Introduction, Principles

VikramGadre&

Aditya Abhyanka

McGraw Hill

Education,First

edition(2017).

Modern Spectral Estimation Steven M. Kay Pearson Education,

First edition

(2017).


Volume and Year

of Edition

Prentice Hall. PTR.

1993.

Volume and Year

of Edition

John Wiley 1994

McGraw Hill

Education,First

edition(2017).

Pearson Education,

First edition

(2017).



Subject Name: MODERN CRYPTOGRAPHY


Course Objectives:

Course Outcomes


1 Recognize the formal definitions of security are an

essential first step in the design of any cryptographic

primitive or protocol

2 Emphasize the importance of authenticated

encryption

3 Know the standard applications of cryptographic

hash functions and hash

4 Design new cryptosystems

Course

outcome

Descriptions

CO1 Know basic principles of modern cryptography

CO2 Aware of standard (secure) constructions for computational

security primitives

CO3 Perform a basic evaluation of new schemes based on their proofs

of security and the mathematical

proofs

CO4 Know the issue of generating randomness suitable for

cryptographic applications

CO5 Achieve message integrity by using cryptographic techniques to

prevent the undetected tampering of messages sent over an open

communication channel.


and Communication

CRYPTOGRAPHY


Course Objectives

Recognize the formal definitions of security are an


primitive or protocol

Emphasize the importance of authenticated

encryption

Know the standard applications of cryptographic

hash functions and hash-function design principles.

Design new cryptosystems

Know basic principles of modern cryptography

Aware of standard (secure) constructions for computational

security primitives

Perform a basic evaluation of new schemes based on their proofs

of security and the mathematical assumptions underlying those

Know the issue of generating randomness suitable for

cryptographic applications

Achieve message integrity by using cryptographic techniques to


communication channel.


0-4

Recognize the formal definitions of security are an


Emphasize the importance of authenticated

Know the standard applications of cryptographic

function design principles.

Aware of standard (secure) constructions for computational

Perform a basic evaluation of new schemes based on their proofs

assumptions underlying those

Know the issue of generating randomness suitable for

Achieve message integrity by using cryptographic techniques to




UNIT

I

Introduction and Classical Cryptography

Introduction Cryptography and Modern Cryptography, the Setting of

Private-Key Encryption, Historical Ciphers and Their Cryptanalysis,

the Basic Principles of Modern Cryptography: Principle 1

Formulation of Exact Definitions, Principle 2

Assumptions, Principle 3

II

Perfectly-Secret Encryption and Private

Definitions and Basic Properties, The One

Cipher), Limitations of Perfect Secrecy, Shannon's Theorem

Computational Approach to Cryptography ,The Basic Idea of

Computational Security, Efficient Algorithms and Negligible Success

Probability , Proofs by Reduction, Defining Computationally

Encryption ,The Basic Definition of Security ,Properties of the

Definition,

III

PseudoRrandomness, Public

Pseudo randomness .

Security Against Chosen

Functions , CPA-Secure Encryption from Pseudorandom Functions,

Pseudorandom Permutations and Block Ciphers, Security Against

Chosen-Cipher text Attacks (CC

Overview',Definitions, Security against Chosen

Multiple Encryptions, Hybrid Encryption

IV

Message Authentication Codes and Collision

Functions :

Secure Communication and M

Message Authentication, Message Authentication Codes

Constructing Secure Message Authentication Codes,CBC

Collision-Resistant Hash Functions :Defining Collision Resistance

,Weaker Notions of Security for


and Communication

Description



Key Encryption, Historical Ciphers and Their Cryptanalysis,

the Basic Principles of Modern Cryptography: Principle 1

Formulation of Exact Definitions, Principle 2- Reliance on Prec

Assumptions, Principle 3 - Rigorous Proofs of Security.

Secret Encryption and Private-Key Encryption

Definitions and Basic Properties, The One-Time Pad (Vernam's




Probability , Proofs by Reduction, Defining Computationally-Secure

ryption ,The Basic Definition of Security ,Properties of the

PseudoRrandomness, Public-Key Encryption:

Pseudo randomness . Constructing Secure Encryption Schemes

Security Against Chosen-Plaintext Attacks (CPA) Pseudorandom

Secure Encryption from Pseudorandom Functions,


Cipher text Attacks (CCA)Public-Key Encryption

Overview',Definitions, Security against Chosen-Plaintext Attacks,

Multiple Encryptions, Hybrid Encryption

Message Authentication Codes and Collision-Resistant Hash

Secure Communication and Message Integrity, Encryption vs.

Message Authentication, Message Authentication Codes – Definitions,

Constructing Secure Message Authentication Codes,CBC

Resistant Hash Functions :Defining Collision Resistance

,Weaker Notions of Security for Hash Functions,A Generic "Birthday"


Hours



Key Encryption, Historical Ciphers and Their Cryptanalysis,

the Basic Principles of Modern Cryptography: Principle 1 -

Reliance on Precise

7

Hours

Key Encryption

Time Pad (Vernam's




Secure

ryption ,The Basic Definition of Security ,Properties of the

09

Hours

Key Encryption:

Constructing Secure Encryption Schemes

Plaintext Attacks (CPA) Pseudorandom

Secure Encryption from Pseudorandom Functions,


Key Encryption- An

Plaintext Attacks,

8

Hours

Resistant Hash

essage Integrity, Encryption vs.

Definitions,

Constructing Secure Message Authentication Codes,CBC-MAC

Resistant Hash Functions :Defining Collision Resistance

Hash Functions,A Generic "Birthday"

8

Hours



Attack, The Merkle-Damgard Transform.

V

Practical Constructions of Pseudorandom Permutations

(BlockCiphers}:

Substitution-Permutation Networks, Feistel Networks,The

Encryption Standard differential and Linear Cryptanalysis

Look




Text Books:

Sl

No

Text Book title

1 Introduction To Modern

Cryptography

Reference Book:

Sl

No

Text Book title

1 Applied Cryptography

2 Security in Computing


and Communication

Damgard Transform.


(BlockCiphers}:

Permutation Networks, Feistel Networks,The Advanced

Encryption Standard differential and Linear Cryptanalysis- A Brief

Look




Introduction To Modern Jonathan Katz

Yehuda Lindell

Second Edition., Chapman

& Hall/CRC press


of Edition

Applied Cryptography Bruce Schneier 2nd Edition, John

Wiley and Sons

Inc, 2001

Security in Computing Charles B. Pfleeger and Shari

Lawrence Pfleeger

3rd Edition,

Pearson

2003



Advanced

A Brief

7

Hours



Second Edition., Chapman

& Hall/CRC press

Volume and Year

of Edition

2nd Edition, John

Wiley and Sons

Inc, 2001

3rd Edition,

Pearson Education,

2003



Subject Name: MACHINE LEARNING


Course Objectives:

Course Outcomes


1 Define machine learning and problems relevant to

machine learning.

2 Differentiate supervised, unsupervised and

reinforcement learning.

3

Apply neural networks; Bayes classifier and k

nearest neighbor, for problems appear in machine

learning. learning

4 Perform statistical analysis of machine

Course

outcome

Descriptions

CO1 Identify the problems for machine learning and differentiation of

supervised, unsupersvised and reinforcement learning.

CO2 Explain theory of probability and statistics related to machine

learning.

CO3 Investigate concept learning, ANN and Bayes classifier.

CO4 Apply the K-nearest neighbor and Q algorithms.


and Communication

Subject Name: MACHINE LEARNING


Course Objectives

Define machine learning and problems relevant to

machine learning.

Differentiate supervised, unsupervised and

reinforcement learning.



learning. learning technique.

Perform statistical analysis of machine

Identify the problems for machine learning and differentiation of

supervised, unsupersvised and reinforcement learning.

Explain theory of probability and statistics related to machine

Investigate concept learning, ANN and Bayes classifier.

nearest neighbor and Q algorithms.


0-4

Define machine learning and problems relevant to

Differentiate supervised, unsupervised and



Identify the problems for machine learning and differentiation of

Explain theory of probability and statistics related to machine



UNIT

I

Introduction: Well posed learning problems, Designing a

Learningsystem, Perspective and Issues in Machine Learning. Concept

Learning: Concept learning task, Concept learning as search,Find

algorithm, Version space, Candidate Elimination algorithm, Induct

Bias. Text Book1, Sections: 1.1

II

Decision Tree Learning: Decision tree representation, Appropriate

problems for decision tree learning, Basic decision tree learning

algorithm, hypothesis space search in decision tree

bias in decision tree learning, Issues in decision tree learning. Text

Book1, Sections: 3.1-3.7

III

Artificial Neural Networks: Introduction, Neural Network

representation, Appropriate problems, Perceptrons, Backpropagation

algorithm. Text book 1, Sections: 4.1

IV

Bayesian Learning: Introduction, Bayes theorem, Bayes theorem and

concept learning, ML and LS error hypothesis, ML for predicting

probabilities, MDL principle, Naive Bayes classifier, Bayesian belief

networks, EM algorithm. Text book 1, Sections: 6.1

6.12

V

Evaluating Hypothesis: Motivation, Estimating hypothesis accuracy,

Basics of sampling theorem, Generalapproach for deriving confidence

intervals, Difference in error of two hypothesis, Comparing learning

algorithms. Instance Based Learning: Introduction, k

neighbor learning, locally weighted regression, radial basis function,

cased-based reasoning, Reinforcement Learning: Introduction,

Learning Task, Q Learning. Text book 1, Sections: 5.1

13.1-13.3


and Communication

Description



Learning: Concept learning task, Concept learning as search,Find

algorithm, Version space, Candidate Elimination algorithm, Induct

Bias. Text Book1, Sections: 1.1 – 1.3, 2.1-2.5, 2.7



algorithm, hypothesis space search in decision tree learning, Inductive


3.7


representation, Appropriate problems, Perceptrons, Backpropagation

gorithm. Text book 1, Sections: 4.1 – 4.6




etworks, EM algorithm. Text book 1, Sections: 6.1 – 6.6, 6.9, 6.11,

6.12




algorithms. Instance Based Learning: Introduction, k-nearest


based reasoning, Reinforcement Learning: Introduction,

Learning Task, Q Learning. Text book 1, Sections: 5.1-5.6, 8.1


Hours



Learning: Concept learning task, Concept learning as search,Find-S

algorithm, Version space, Candidate Elimination algorithm, Inductive

10

Hours



learning, Inductive


10

Hours


representation, Appropriate problems, Perceptrons, Backpropagation 10

Hours




6.6, 6.9, 6.11,

6.12

10

Hours




nearest


based reasoning, Reinforcement Learning: Introduction,

5.6, 8.1-8.5,

12

Hours






Text Books:

Sl

No

Text Book title

1 Machine Learning

Reference Book:

Sl

No

Text Book title

1 The Elements of

Statistical LearninG

2 Introduction to machine

learning


and Communication




Tom M. Mitchell India Edition 2013, McGraw

Hill Education


of Edition

The Elements of Trevor Hastie, Robert

Tibshirani, Jerome Friedman

2nd edition,

springer series in

statistics

Introduction to machine Ethem Alpaydın second edition,

MIT press




India Edition 2013, McGraw

Hill Education

Volume and Year

of Edition

2nd edition,

springer series in

statistics

second edition,

MIT press



Subject Name: INNOVATION AND IPR


Course Objective:

Course Outcomes


1

The course has been

be aware about the concepts of Intellectual property

rights to introduce fundamental aspects of

Intellectual property Rights to students who are

going to play a major role in development and

management of innovative projects

disseminate knowledge on patents, patent regime in

India and abroad and registration aspects.

Course

outcome

Descriptions

CO1

The students once they complete their academic projects, shall get

an adequate

innovative research work

CO2

During their research career information in patent documents

provide useful insight on novelty of their idea from stateof the art

search. This provide further way for developing thei

innovations

CO3

Pave the way for the students to catch up Intellectual Property(IP)

as an career optiona.R&D IP Counsel b.Government Jobs

Examiner. c. Private Jobs d.Patent agentand Trademark agent

e.Entrepreneur


and Communication

Subject Name: INNOVATION AND IPR

Subject Code: EC8PE54 L-T-P-C: 4

Course Objective

The course has been introduced to make the student


rights to introduce fundamental aspects of

Intellectual property Rights to students who are

going to play a major role in development and

management of innovative projects in industries. To


India and abroad and registration aspects.


an adequate Knowledge on patent and copyright for their

innovative research work



search. This provide further way for developing their idea or


as an career optiona.R&D IP Counsel b.Government Jobs


e.Entrepreneur


C: 4-0-0-4

introduced to make the student


in industries. To



Knowledge on patent and copyright for their



r idea or


as an career optiona.R&D IP Counsel b.Government Jobs - Patent




UNIT

I

BASICS OF INTELLECTUAL PROPERTY RIGHTS: Introduction

need for intellectual property right (IPR) Kinds of Intellectual Property

Rights: Patent, Copyright, Trade Mark, Design, Geographical

Indication, Plant Varieties and Layout Design

Traditional Knowledge

development –IPR in abroad

concerning Intellectual Property Rights: Paris Convention, 1883, the

Berne Convention, 1886, the Universal C

the WIPO Convention, 1967,the Patent Cooperation Treaty, 1970, the

TRIPS Agreement, 1994

II

PATENTS - Elements of Patentability: Novelty , Non Obviousness

(Inventive Steps), Industrial Application

Matter - Registration Procedure, Rights and Duties of Patentee,

Assignment and licence , Restoration of lapsed Patents, Surren

Revocation of Patents, Infringement, Remedies & Penalties

office and Appellate Board

III

COPYRIGHTS -Nature of Copyright

original literary, dramatic, musical, artistic works; cinematograph

films and sound recordings

protection, Ownership of copyright, Assignment and licence of

copyright - Infringement, Remedies & Penalties

Distinction between related rights and copyrights.

IV

TRADEMARKS -Concept of Trademarks Different kinds of marks

(brand names, logos, signatures, symbols, well known marks,

certification marks and service marks)

Registration of Trademarks

Licensing of marks-Infringement, Remedies & Penalties

registry and appellate board


and Communication

Description

BASICS OF INTELLECTUAL PROPERTY RIGHTS: Introduction –



Indication, Plant Varieties and Layout Design -Genetic Resources and

Traditional Knowledge - Trade Secret IPR in India : Genesis and

IPR in abroad – Major International Instruments


Berne Convention, 1886, the Universal Copyright Convention, 1952,


TRIPS Agreement, 1994

Elements of Patentability: Novelty , Non Obviousness

(Inventive Steps), Industrial Application - Non-Patentable Subject

Registration Procedure, Rights and Duties of Patentee,

Assignment and licence , Restoration of lapsed Patents, Surrender and

Revocation of Patents, Infringement, Remedies & Penalties -

office and Appellate Board

Nature of Copyright - Subject matter of copyright:


ound recordings - Registration Procedure, Term of


Infringement, Remedies & Penalties – Related Rights

Distinction between related rights and copyrights.

Concept of Trademarks Different kinds of marks


certification marks and service marks) -Non Registrable Trademarks

Registration of Trademarks - Rights of holder and assignment and

Infringement, Remedies & Penalties -Trademarks

registry and appellate board


Hours

– to the



Genetic Resources and

Trade Secret IPR in India : Genesis and

Major International Instruments


opyright Convention, 1952,


10

Elements of Patentability: Novelty , Non Obviousness

Patentable Subject

Registration Procedure, Rights and Duties of Patentee,

der and

-Patent

10

Subject matter of copyright:


Registration Procedure, Term of


Related Rights -

10

Concept of Trademarks Different kinds of marks


Non Registrable Trademarks -

Rights of holder and assignment and

Trademarks

10



V

OTHER FORMS OF IP

original - Procedure for registration, effect of registration and term of

protection, Geographical

meaning, and difference between GI and trademarks

registration, effect of registration and term of protection, Plant Variety

Protection : Plant variety protection: meaning and benefit sharing and

farmers’ rights –Procedure for registration, effect of registration and

term of protection Layout Design Protection. Layout Design protection:

meaning –Procedure for registration, effect of registration and term of

protection




Text Books:

Sl

No

Text Book title

1 Intellectual Property Rights: Protection

and Management. India, IN:

2 Intellectual Property Rights India, IN:

Reference Book:

Sl

No

Text Book title

1 Law relating to Intellectual Property

Rights. India, IN:


and Communication

OTHER FORMS OF IP -Design: meaning and concept of novel and

Procedure for registration, effect of registration and term of

protection, Geographical Indication (GI) Geographical indication:

meaning, and difference between GI and trademarks -Procedure for



Procedure for registration, effect of registration and






of Edition

Intellectual Property Rights: Protection

and Management. India, IN:

Nithyananda,

K V

Cengage

India Private

Limited,2019

Intellectual Property Rights India, IN: Neeraj P., &

Khusdeep,D

PHI learning

Private Limited,

2014


of Edition

Law relating to Intellectual Property Ahuja,V K. Lexis Nexis. (2017).


Design: meaning and concept of novel and


Indication (GI) Geographical indication:

Procedure for



Procedure for registration, effect of registration and



12


Volume and Year

of Edition

Cengage Learning

India Private

Limited,2019

PHI learning

Private Limited,

2014

Volume and Year

of Edition

Lexis Nexis. (2017).



Subject Name: PROJECT WORK PHASE

Subject Code: CS8PW02

Course Outcomes

1. Students shall present on the System Design Phase which includes System

Architecture, High Level Design, Low Level

Modules, Implementation Tools used and

2. Final seminar on the complete project is presented by the students

Phase -II Demonstration

Students have to demonstrate the working model of th

guides.

Evaluation Scheme-I (50% percent of

Continuous evaluation will b

Regularity, Technical Knowledg

Communication Skills, Demonstra

Documentation Skills of the students

Evaluation Scheme II (50% percent of CIE)

Students are evaluated by the

Presentation, Technical Competence, Slides Preparation, Team Working

Questionnaires and overall

Project Phase-I. Students are required to meet their respective project guides on

stipulated day once in a wee

the guides without fail.

Course

outcome

CO1 Design a suitable system according to the problem stated in

project work phase

CO2 Implement the desig

CO3 Test the performance of the system with suitable data


and Communication

PROJECT WORK PHASE –II

L-T-P-C:

Description

present on the System Design Phase which includes System

Architecture, High Level Design, Low Level Design, System Models,

plementation Tools used and Algorithms used and implemented

Final seminar on the complete project is presented by the students

Students have to demonstrate the working model of the Project to their

I (50% percent of CIE):

will be done by respective Project Guides based on the

Regularity, Technical Knowledge and Competence, Programming Skills

Communication Skills, Demonstration skills, Collaborative Learnin

Documentation Skills of the students.

Evaluation Scheme II (50% percent of CIE):

are evaluated by the team of faculty members based on the

Presentation, Technical Competence, Slides Preparation, Team Working

Questionnaires and overall Performance in the Seminar-1 and

Students are required to meet their respective project guides on

day once in a week and update their progress and get signature from

Descriptions

Design a suitable system according to the problem stated in

phase –I.

Implement the designusing necessary algorithms and tool

Test the performance of the system with suitable data.


C: 2 -4- 12- 10

present on the System Design Phase which includes System

Design, System Models, System

mplemented.

Final seminar on the complete project is presented by the students. Project

Project to their respective

based on the

, Programming Skills,

, Collaborative Learning and

based on the

Presentation, Technical Competence, Slides Preparation, Team Working Abilities,

Seminar-2of

Students are required to meet their respective project guides on a

and update their progress and get signature from

Design a suitable system according to the problem stated in

using necessary algorithms and tools



Subject Name: TECHNICAL SEMINAR

Subject Code: EC8TS01

Course Outcomes

Guidelines for preparing Technical Semina

1.Selection of topic/area:

Select a paper according to the specialization of students. Papers from any

approved journals can also be selected

2.Approval to the selected topic

After selecting the paper, get approval from the concerned faculty in

3.Study of topic:

Students are requested to acquire a thorough knowledge on the subject by

referring back papers and refere

at the end of the paper) on the corresponding area

4.Seminar:

Final seminar is presented by the students through

Course

outcome

CO1 Survey the changes in the technologies relevant to the

selected.

CO2 Discuss the technology and interpret the impact on the society,

environment and do

CO3 Compile report of the study and present to the audience


and Communication

TECHNICAL SEMINAR

L-T-P-SS

Description

Guidelines for preparing Technical Seminar

:

Select a paper according to the specialization of students. Papers from any

s can also be selected.

Approval to the selected topic:

fter selecting the paper, get approval from the concerned faculty in charge

are requested to acquire a thorough knowledge on the subject by

referring back papers and reference books (These may be included as

at the end of the paper) on the corresponding area.

Final seminar is presented by the students through slides.

Descriptions

Survey the changes in the technologies relevant to the

Discuss the technology and interpret the impact on the society,

environment and domain.

Compile report of the study and present to the audience


SS-C: 0-0-0-1-1

Select a paper according to the specialization of students. Papers from any other

charge.

are requested to acquire a thorough knowledge on the subject by

ce books (These may be included as references

Survey the changes in the technologies relevant to the topic

Discuss the technology and interpret the impact on the society,

Compile report of the study and present to the audience.

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