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    Shivaji University, Revised Syllabus of ( B.E. Electronics & Telecommunication Engineering Sem –VII & VIII )


    To be introduced from the academic year 2010-11
    (i.e. from June 2010 ) Onwards
    (Subject to the modifications will be made from time to time)

    B.E. (ELECTRONICS & TELECOMMUNICATION ENGG.) 2010-11
    B.E. Part-I B.E. Part-II

    Elective-I                                                          Elective-II
    1. Digital Signal Processors                                 1. Speech Processing
    2. Integrated Communication Systems                  2. Pattern Recognition
    3. Satellite Communication                                 3. Mobile Communication
    4. Remote sensing & GIS                                    4. Real time Systems

    B.E.(Electronics and Telecommunication)

    1. Subject : Computer Communication Network
    w.e.f July 2010
    Lectures : 4 hrs / week Theory : 100 Marks
    Practical : 2 hrs / week TW : 25 Marks
    POE: 50 Marks

    SECTION – I

    1) Introduction to computer networks 5 Hrs
    Network definition & requirements Network topology, Types of networks, Network
    Software issues, reference models – OSI,TCP/IP.
    2) Physical Layer –Transmission media 8 Hrs
    Guided media-twisted pair, coaxial cable, optical fiber. Unguided media – RF allocation,
    terrestrial microwave, satellite communication, cellular telephone. EIA 232 D interface
    standard, Modems – types, block schematic & standards Network Devices: Network
    Connectors, Hubs, Switches, Routers,BridgesNIC.
    3) Data Link Layer 7 Hrs
    Design issues, error detection and correction, elementary data link protocols, sliding
    window protocols. HDLC – types of stations, modes of operation, HDLC frame formats,
    additional features. Medium Access Sublayer – Channel allocation problem, multiple
    access Protocols, IEEE standard 802 for LANs and WANs

    SECTION-II

    4) High speed Ethernet 5 Hrs
    Fast Ethernet physical layer, Fast Ethernet networks, Gigabit Ethernet
    5) Network Layer 6 Hrs
    Design issues, Routing algorithms – shortest path, distance vector routing, link state
    routing, flow based routing, routing for mobile hosts, Congestion control – congestion
    prevention policies-leaky bucket algorithm, token bucket algorithm, congestion control in
    virtual circuit subnet and choke packets.
    6) TCP/IP Protocol Suit Overview 9 Hrs
    TCP/IP and Internet, IP protocol and it’s header format, addressing, subnetting, other
    network layer protocols – ARP, RARP, ICMP, IGMP, TCP, UDP, Domain name system
    (DNS), IP/V.6

    Referances :
    1. Data Communication and Networking Forouzan-IInd edition
    2. Computer Neworks Tanenbaum
    3. Computer Networks Natalia olifer, Victor olifer
    4. Computer Networks Mrs. Shinde S. S. New age International pub.
    Note: Any 10 experiments based on above syllabus.

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    2. Subject : Wireless Communication
    w.e.f July 2010
    Lectures : 4 hrs / week Theory : 100 Marks
    TW : 25 Marks

    SECTION I

    1. Review: 2G, 3G wireless networks, WLL, Cellular Concept 6 Hrs.
    2. Mobile Radio Propagation 7 Hrs.
    Large Scale Path Loss: Introduction to Radio Wave propagation, Free Space propagation
    model, Relating Power to Electric Field, The three Basic Propagation Mechanisms,
    Reflection, Ground Reflection (Two-Ray) Model, Diffraction, Scattering, Practical Link
    Budget Design Using Path Loss Models, Outdoor Propagation Models, Indoor Propagation
    Models, Signal Penetration into Buildings, Ray Tracing And Site Specific Modeling,
    3. Mobile Radio Propagation 7 Hrs.
    Small-Scale Fading and Multipath : Small-Scale Multipath Propagation, Impulse Response
    Model of a Multipath Channel, Small-Scale Multipath Measurements, Parameters of Mobile
    Multipath Channels, Types of small-Scale Fading, Rayleigh and Ricean Distributions,
    Statistical Models for Multipath Fading Channels.

    SECTION II

    4. Multi Access Technique for wireless communication 6 Hrs.
    Introduction, Frequency Division multiple Access (FDMA), Time Division Multiple Access
    (TDMA) Spread Spectrum Multiple Access, Space Division Multiple Access (SDMA) Packet
    Radio, Capacity of cellular Systems,
    5. Wireless Networking: Introduction to wireless Networks 7 Hrs.
    Difference Between Wireless and Fixed Telephone Networks, Development of Wireless
    Networks, Fixed Network Transmission Hierarchy, Traffic Routing in Wireless Networks,
    Wireless Data Services, Common Channel Signaling (CCS), Integrated services Digital
    networks (ISDN), Signaling System No. 7 (SS7), An Example of SS7-Global Cellular
    Network Interoperability, Personal Communication services / Networks (PCS/PCNs),
    protocols for Network Access, Network Databases, Universal Mobile Telecommunication
    System (UMTS.
    6. Wireless Systems & Standards 7 Hrs.
    AMPS and ETACS, United States Digital Cellular (IS-54 ad IS-136) Global System for
    Mobile (GSM) CDMA digital Cellular Standard (IS-95), CT2 standard for cordless
    Telephones, Digital European Cordless Telephones (DECT) PACS- Personal Access
    Communication Systems, Pacific Digital Cellular (PDC), Personal Handy phone System
    (PHS), US PCS and ISM Bands, US wireless Cable Television, Summary Of Standards
    throughout the world, problems. IEEE 802.11

    Reference Books
    1. Wireless Communications Principals & Practice- Theodore S. Rappaport, (P.E.)
    2. Wireless & Mobile Network Architecture- Yi-Bing Lin, Imrich Chiamtac (John Wiley)
    3. Fundamental of Wireless Communication- David Tse, Pramod Viswanath (Cambridge)

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    3. Subject : Microwave Engineering
    w.e.f July 2010
    Lectures : 4 hrs / week Theory : 100 Marks
    Practical : 2 hrs / week TW : 25 Marks
    POE: 50 Marks

    Section I

    1. Microwave Wave Guides: 6 Hrs
    Rectangular and circular wave guides: TE, TM and TEM modes in wave guides, power
    transmission in wave guide, power losses in wave guide, excitation modes in wave guide,
    Characteristics of standard wave guides.
    2. Microwave Components 6Hrs
    Scattering parameters, microwave cavities, microwave hybrid circuits, directional coupler,
    circulators and isolators, microwave attenuators, slotted lines, parallel, coplanar & shielded
    micro strip lines. (Operating principle & S-parameter equations of above mentioned
    microwave components.)
    3. Microwave Tubes 8Hrs
    Linear beam: klystrons, reflex klystrons, TWTs. Microwave Crossed Field Tubes :
    Magnetons, forward wave crossed field amplifier (FWCFA), m-carcinotron oscillators, high
    power gyrotrons. (Operating principle, construction & analytical treatment of above
    mentioned microwave tubes.)

    Section II

    4. Microwave Solid State Devices 6Hrs
    Microwave tunnel diodes, microwave FETs, gunn effect diodes, RWH Theory, LSA diodes,
    InP diodes, CdTe diodes, Impatt diodes, PIN diodes, ruby laser, MESFETs and HEMT.
    (Operating principle, construction & analytical treatment of above mentioned microwave
    devices.)
    5. Microwave Measurements 8Hrs
    Detection of microwave power: measurement of microwave power bridge circuit, thermister
    parameters, waveguide thermister mounts, barreters,theory of operation of barreters, direct
    reading barreters bridges, Measurement of wavelengths: single line cavity coupling system,
    frequency pulling by reactive load, Transmission cavity wavemeter & reaction wavemeter,
    measurement of VSWR, measurements of attenuation, free space attenuation, conversion of
    transmitting and receiving power to electric field intensity, conversion of receiving voltage to
    electric field intensity.
    6. Monolithic Microwave Integrated Circuits & Hazards 6Hrs.
    Materials: substrate, conductor dielectric & resistive MMIC growth, thin film formation,
    hybrid microwave I.C. fabrication microwave hazards.

    Text Books –
    1. Microwave Devices and Circuit – Samul Liao (Prentice hall of India)
    2. Microwave Circuits and Passive Devices – Sisodia and Raghuvanshi Wiley
    Eastern.

    Reference Books –
    1. Foundation for Microwave Engg. – R.E.Collin, Wiley Publications
    2. Microwave Engineering-David M. Pozer., Wiley Publications
    3. Microwave Engineering-Annapurna Das ,TMH Publications
    4. Techniques of Microwave Measurement-Carol G. Montgomery
    5. Microwave Active Devices vaccum and solid state – M.L. Sisodia
    6. Basic laboratory microwave techniques- Manual, Sisodia and Raghuvanshi Wiley
    Eastern.

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    4. Subject : Embedded Systems
    w.e.f July 2010
    Lectures : 4 hrs / week Theory : 100 Marks
    Practical : 2 hrs / week TW : 25 Marks
    POE: 50 Marks

    Section – I

    1. Introduction to Embedded Systems 3 Hrs.
    Embedded system (ES) definition, Embedded System Evaluation, ES Types with
    examples, Distinguish a Real Time Embedded System from other systems, Components
    of an Embedded system, Embedded system design issues & Design flow.
    2. Embedded Processor 7Hrs.
    The RISC Design philosophy, The ARM design Philosophy, ES hardware, Es software,
    ARM Architecture Details: registers, CPSR, Pipeline concept, Exceptions Interrupts &
    vector Table, Core extentions, Architecture revision, families.
    3. Introduction to the ARM Instruction Set, THUMB Instruction Set 10hrs.
    · ARM Data flow model
    · Data processing Instructions
    · Load-store Instructions
    · Software int. Instructions
    · Branch Instructions
    · Stack Instructions
    · Different addressing modes

    Section – II

    4. Real Time Operating System (RTOS) 05 Hrs.
    Introduction to RTOS concept, embedded software architectures: Round robin, round
    robin with interrupts, Function queue scheduling and real time operating system, Tasks
    and task states, Task scheduling, shared data and reentrancy, semaphores and shared data
    using semaphores, protecting shared data.
    5. Communication / Networking standards for embedded Systems 10 Hrs.
    a. USART (serial port)
    b. I2C, SPI
    c. Universal Serial Bus (USB)
    d. Ethernet network
    e. Controller Area Network (CAN)
    6. Case studies of an embedded system 05 Hrs.
    Problem specification, resolving timing problems, use of an RTOS, work division into
    tasks dealing with shared data, Encapsulating semaphores and queues, Saving Space and
    Power.

    Text Books:
    1. Embedded System Design By Peter Marwedel, Springer publication.
    2. An Embedded Software Primer, David E. Simon Pearson Education, Asia Publication
    3. ARM System Developers Guide Designing & Optimizing System Software By
    Andrew N., Dominic Sloss, and Chris Wright.

    Ref. Books:
    1.Embedded System Design A Unified Hardware/ Software Introduction By Frank Vahid/
    Tony Givargis ,Wiley publication
    2. Real- Time Systems Design and Analysis by Phillips A. Laplante, Wiley insia Edition.
    3. Embedded/ Real-Time Systems: Concepts, Design & Programming By Dr. k V K K
    Prasad ,Dreamtech Press

    List of experiments:
    1. Four experiments based on assembly language.
    2. Four experiments based on Embedded C language.
    3. Two Experiments using ARM Boards.
    4. Two Experiments based on Bus communication Protocols.
    (Use Assemblers, Compilers, Flash Programmers, Debuggers & ARM Boards)

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    5. Subject : DIGITAL SIGNAL PROCESSORS (Elective I)
    w.e.f July 2010
    Lectures : 4 hrs / week Theory : 100 Marks

    SECTION-I

    1. INTRODUCTION TO DSP PROCESSORS 5 Hrs
    Advantages of DSP Processors, Characteristics of DSP Processors, Applications of DSP
    Processors, Types of Architectures: VON-Neumann Architecture, Harvard Architecture,
    Super Harvard Architecture, VLIW Architecture.
    2. ARCHITECTURE FOR PROGRAMMABLE DSP DEVICES 8 Hrs
    Basic Architectural features, DSP computational Building Blocks, Bus Architecture and
    Memory, Data Addressing Capabilities, Address Generation Unit, Programmability and
    Program Execution, Speed issues Features for External interfacing.
    3. EXECUTION CONTROL AND PIPELINING 5 Hrs
    Hardware looping, Interrupts, Stacks, Relative Branch Support, Pipelining and performance,
    Pipeline Depth, Interlocking, Branching effects, Interrupt effects, pipeline Programming
    models.

    SECTION-II

    4. PROGRAMMABLE DIGITAL SIGNAL PROCESSORS 9 Hrs
    Commercial Digital signal-processing Devices, Architecture of TMS320C67XX Processors,
    Data Addressing modes of TMS320C67XX Processors, Memory space of TMS320C67XX
    Processors, Program Control, TMS320C67XX instructions and Programming, On-Chip
    peripherals, Interrupts of TMS320C67XX processors, Pipeline Operation of TMS320C67XX
    Processors.
    5. Analog DSP Processor family 5 Hrs
    Analog 21061 series SHARC Processor block diagram, Interrupt Hardware, Memory
    quantization, Central arithmetic logic unit, system control etc.
    6. IMPLEMENTATION OF BASIC DSP ALGORITHMS 4 Hrs
    FIR Filters, IIR Filters, interpolation Filters, Decimation filters, Adaptive Filters, 2-D Signal
    Processing.

    Text & References :
    1. Analog Devices & Texas Instruments Users Manuel of TMS320C67XX and ADSP
    21061.
    2. Architectures for Digital Signal Processing- P. Pirsch, John Wiley
    3. Digital Signal Processors- Kuo and Gan, Pearson Education
    4. DSP Processor Fundamentals: architectures and Features, by Phil Lapsley, Wiley
    5. DSP Applications using C and the TMS320C6x DSP

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    5. Subject : Integrated Communication Systems(Elective –I)
    w.e.f July 2010
    Lectures : 4 hrs / week Theory : 100 Marks
    TW : 25 Marks

    SECTION –I

    1. Amplifiers & Comparators 8 Hrs
    Review of basic theory of amplifiers, frequency response & performance analysis of- high
    frequency amplifier – MC1490, MC 1350(any one),wideband general purpose amplifiersused
    in AGC, RF/Video amplifiers - MC4558.
    2. RF communication Systems 8 Hrs
    Review of basic theory & performance analysis of systems- Balanced modulator &
    demodulator – MC 1496, Wideband FSK transmitter/receiver- MC 3356.
    FM transmitter/receiver- MC 2833,FM-IF amplifier-MC3335, AM Receiver- MC 13030,
    Remote control amplifier/detector- transmitter- MC 14497, receiver –MC 3373
    3. Telephone Systems 4 Hrs
    Basic theory , Block schematics, working of systems- Subscriber Loop Interface Circuit
    (SLIC-MC 33120), PBX- Master MC14522, Slave MC- 145426.

    SECTION – II

    4. Telephone Systems 4 Hrs
    ISDN voice/ Data Circuits MC 145472, Telephone tone ringer- MC 342117, Speech network
    dialer- MC 34014/ 34114, Speaker – MC 34018
    5. Telephone Accessory Circuits 8 Hrs
    Basic theory , Block schematics, working of systems
    Audio amplifier – MC 34119 (or any other low power amplifier circuit)
    FSK Modem – MC 145442, calling line identification receiver (CLID) with ring detector
    – MC 145447/ MC 1455460.
    6. Wireless Sensor Networks 8 Hrs
    Basics of Sensor Networks,Communication Protocols for Sensor networks,Medium
    Access Control (MAC) in WSN, Zigbee,
    Applications of Wireless Sensor Network, Case Study as Environmental Parameter
    Monitoring – Block Diagram and Design of Network System

    References :
    1.MOTOROLA Analog/ Interface ICs Device Data Manual Vol. 1 & II
    2. Wireless Sensor Networks By C.S. Raghvendra,K.M.Shivlingam

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)
    5. Subject : Satellite Communication (Elective –I)
    Lectures: 4 Hrs/Week Theory: 100 Marks

    Section – I

    1. Orbital Mechanics and Launchers (6)
    History of Satellite Communication, satellite communication in 2000.
    Orbital Mechanics, Look angle determination, Orbital perturbations, Orbital determination,
    Launchers and Launch Vehicles, Orbital effects in communication system performance.
    2. Satellites ( 6 )
    Satellite Subsystems, Attitude and control systems (AOCS), Telemetry, Tracking,Command
    and Monitoring, Power systems, Communication subsystems, Satellite antennas, Equipment
    reliability and space qualification.
    3. Satellite Link Design ( 6 )
    Introduction, Basic transmission Theory, System Noise Temperature and G/T Ratio, Design
    of Downlinks, Satellite Systems using Small Earth Stations, Uplink Design, Design of
    Specified C/N : Combining C/N and C/I values in Satellite Links, System Design Examples
    4.VSAT System ( 3 )
    Introduction, Overview of VSAT Systems, Network Architecture ,VSAT Earth Station
    Engineering

    Section – II

    5. Multiple Access ( 5 )
    Introduction : TDMA, FDMA, CDMA,DAMA.
    6. Low Earth Orbit and Non Geo-Stationary Satellite Systems ( 8 )
    Introduction , Orbit considerations, Coverage and frequency Consideration, Delay and
    Throughput consideration, Operational NGSO constellation design: Iridium, Teledesic
    7. Direct Broadcast Satellite Television And Radio ( 4 )
    C- Band and Ku- Band Home Satellite TV, Digital DBS TV, Satellite Radio Broadcasting
    8. Satellite Navigation and the Global Positioning System ( 4 )
    Introduction, Radio and Satellite Navigation, GPS Position Location Principles, GPS
    Receivers and codes, satellite signal acquisition.

    Text Books:
    1. Satellite Communications – Timothy Pratt, Charles Bostian, Jeremy Allnutt John Wiley &
    Sons (II Edition)

    Reference Books:
    1. Satellite Communications – Dennis Roody McGraw Hill
    Note : Students, as a part of their term work, should visit satellite earth station and submit a
    report of visit.

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    5. Subject : REMOTE SENSING AND GIS (Elective I )
    w.e.f July 2010
    Lecture - 4 hrs / week Paper - 100 marks

    Section – I

    1. Introduction 05 hrs
    Definition of GIS, The origins of GIS, What is CADD? What is AM/FM? What is GIS?
    Applications, GIS industry and GIS software: GIS software vendors, GIS products, GIS
    users,GIS services, benefits of GIS, Map data security, Elimination of redundancy, Map
    revisions,search and analysis of map data, productivity of employees, integration of map data.
    2. GIS Technology Trends 03 hrs
    Data networks, Data communications, computer hardware, operating system, software
    engineering.
    3. GIS Data 06 hrs
    Sources, collection and Entry, Digitizing, GPS surveying, Digital orthophotography, satellite
    imagery, GIS Data formats and standards, vector data, Raster data, Raster images, DOD
    spatial Data standards (SDS), spatial data transfer standard (SDTS), Open Geo-data
    interoperability specification (OGIS).
    4. GIS Analysis, Planning and Implementation 06 hrs
    Network analysis, Digital terrain modeling and analysis, Grid cell GIS modeling and
    analysis,GIS plan, Components of GIS plan, phases – planning, analysis, implementation
    successful implementation of GIS, management support leadership and vision, Data
    conversion and maintenance, Hardware and software, User training, Data communication,
    Software customization, User support, Funding.

    Section – II

    5. Pitfalls of GIS 04 hrs.
    Failures, outstanding benefits, experimentation, undefined goals, Lack of long term planning
    and management support, computerizing existing problems, user involvement, Lack of user
    training and R and D support, Budget overrun/ underestimation etc.
    6. Maintenance and Management of GIS Data base 06 hrs.
    Centralized GIS database, Distributed GIS database, Master and transaction GIS database,
    Data maintenance issues, Financial and legal aspects of GIS: GIS costs, on going costs,
    savings, Additional benefits, GIS model for financial justification, Laws for access, pricing,
    privacy, liability, copyright practice etc.
    7. Remote Sensing: 07 hrs.
    Data collection, data types, EM spectrum, radiation and earth, simulated – and earth,
    simulated –and false-color images, LUT s and band correlation, processing remotely sensed
    data, rectification, Band stretching, haze corrections, ratios, principal component analysis,
    imageenhancement, edge detection, change detection, GPS data acquisition, classification of
    remotelysensed data, simple discriminant, supervised and unsupervised. Putting it together,
    types of data and their uses, conflict resolution, visualization, topical issues.
    8. Case Study 03 hrs.
    Land record, utility management, oil and gas, global change.

    Reference Books:
    1. The GIS Handbook – By G.B.Korte 5th Edn. Oxford press.
    2. Geological Information System – By Ian wood, Sarah Cornelius, Steve Carver
    3. Remote Sensing Application and Geographic Information Systems Recent Trends – By
    Muralikrishna I.V. TMH

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    6. Subject : Project
    w.e.f July 2010
    Practical :4 hrs / week TW : 50 Marks

    The project is to be carried out in two semester of B.E(Electronics and Telecommunications )
    Part-I and Part-II. The practical batch size for project will be of 15 students. The batch will be
    preferably divided into groups each consisting of not more than 3 students.
    In semester one, group will select a project with the approval of guide and submit the
    synopsis of project in the month of August. The group is expected to complete detail system
    design, layout etc. in semester one, as a part of the term work in the form of joint report. In
    addition all students of project groups will deliver the seminar on the proposed project only.

    B.E. (ELECTRONICS & TELECOMMUNICATION ENGG.)
    PART – II (Sem VIII)

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    1. Subject: Audio-Video Engineering
    w.e.f July 2010
    Lectures: 4 Hrs/week Theory: 100 marks.
    Practical: 2 Hrs/week TW: 25 marks
    POE: 50 marks

    Section-I

    1.Fundamentals of Audio-Video Recording and Playback Techniques 4 Hrs
    Methods of sound recording & reproduction, optical recording, CD recording, CD & DVD
    player, MP3 player, MPEG player, audio standards.
    2.Fundamentals of Studio Acoustics and Advancements in Audio Technology 4 Hrs
    Studio acoustics & reverberation, acoustic chambers, P.A. system for auditorium, Cordless
    microphone system, special types of speakers & microphones, satellite radio.
    3. Elements of a television system 6 Hrs
    Picture and sound transmission and reception, CCIR-B standards ,aspect ratio, horizontal and
    vertical resolution, video bandwidth and interlaced scanning , composite video, signal, H &
    V sync details, VSB transmission and channel bandwidth: Modulation of picture and sound
    signals, positive and negative modulation.
    4. Colour signal transmission and reception 7 Hrs.
    TV camera tubes ,Composite color signals, compatibility considerations, frequency interleaving
    process, Low level IF modulated color TV transmitter block diagram & Color TV receiver ,
    color mixing theory, luminance, hue and saturation, color difference signals, chromaticity
    diagram , color signal transmission- bandwidth and modulation of color difference signals,
    coders and decoders of NTSC , PAL – D & SECAM, Color Picture Tubes, picture tubes
    purity & convergence, automatic degaussing.

    Section II

    5) Digital television 7 Hrs
    Introduction to Digital T.V., Principle of Digital T.V., Digital T.V. signals & parameters, Digital
    T.V. Receiver, MPEG2, JPEG H & G audio & video standards, Digital T.V.
    Recording/Broadcasting Technique.
    6) High definition TV 7 Hrs.
    Component coding ,MAC signals ,MAC encoding format ,scanning frequencies D2-MAC Packet
    Signal ,Duobinary Coding ,HDTV Standards & compatibility ,colorimetric characteristics &
    parameters of HDTV systems
    7) Advanced TV Systems 7 Hrs.
    LCD TV System :LCD Technology , LCD Matrix types & operations , LCD screen for TV LCD
    color Receiver, Plasma TV System : Plasma & conduction of charge ,Plasma TV screen
    ,Signal processing in Plasma TV, Plasma color Receiver, Satellite TV, DTH Receiver System
    ,CCTV, CATV, working of block converter,: IR Remote control

    TEXT & REFERENCE BOOKS :
    1.Modern Television Practice – Principles, Technology and Service – R.R. Gulati, New
    Age International Publication, Edition III, 2006
    2. Monochrome and Color TV – R.R. Gulati, New Age International Publication, 2002.
    3. Color Television Theory and Practice – S.P. Bali, TMH, 1994.
    4. Television and Video Engineering - A.M. Dhake, 2nd Edition.
    5. Basic Television and Video Systems – B. Grob and C.E. Herndon, McGraw Hill, 1999.
    6.Audio-Video Engineering – R.C.Jaiswal.
    Minimum 10 to 12 Experiment based on syllabus.

    NOTE: One industrial visit to T.V. Relay center/ Broadcasting station is expected.

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    2. Subject : Broadband Communication
    w.e.f 2010-11
    Lectures : 4 hrs / week Theory : 100 Marks
    Practical : 2 hrs / week TW : 25 Marks

    SECTION – I

    1. ISDN 8 Hrs
    Switching Techniques, Principles of ISDN, Architecture, ISDN standards, I-series
    Recommendations, Transmission structure, User network interface, ISDN protocol
    architecture, ISDN connections, Addressing, Interworking,
    2. B-ISDN architecture and standards, B-ISDN Services 6 Hrs
    Conversational, Messaging, Retrieval, Distribution, Business and Residential
    requirements.
    3. B-ISDN protocols 6 Hrs
    User plane, Control plane, Physical layer, Line coding, Transmission structure, SONETRequirement,
    Signal Hierarchy, System Hierarchy.

    SECTION-II

    4. ATM – Overview, Virtual channels 8 Hrs
    Virtual paths, VP and VC switching, ATM cells, Header format, Generic flow control,
    Header error control, Transmission of ATM cells, Adaptation layer, AAL services and
    protocols.
    5.ATM switching 6 Hrs
    ATM switching building blocks, ATM cell processing in a switch, Matrix type switch,
    Input, Output buffering, Central buffering, Performance aspects of buffering switching
    networks.
    6. ATM Traffic and congestion Control 6 Hrs
    Requirements for ATM Traffic and Congestion Control, Cell-Delay Variation, ATM
    Service Categories, Traffic and Congestion Control Framework, Traffic Control,
    Congestion Control,

    Ref :
    1. ISDN and Broadband ISDN with Frame Relay and ATM William Stallings, Prentice-Hall,
    4th edition

    Note: Term work should consist of minimum eight experiments / tutorials based
    on above syllabus.

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    3. Subject : Image Processing
    w.e.f July 2010
    Lectures : 4 hrs / week Theory : 100 Marks
    Practical: 2 hrs/week TW: 25 Marks
    POE: 50 Marks

    SECTION I

    1. Digital Image Fundamentals. 7 hrs
    Elements Of Visual Perception, fundamentals steps in DIP, A simple image formation model,
    Basic concept of sampling and quantization, Representation of binary, Gray level , colour
    image, Metric & topological properties of digital image , colour model.
    2. Image enhancement in spatial domain. 5 hrs
    Gray level transformation function: image negation ,Log transformation , power law
    transformation ,Piecewise linear transformation functions, Histogram equalization,
    Enhancement using arithmetic / Logic operation.
    3. Image filtering 6 hrs
    Basics of spatial filtering, smoothening linear filter, Sharpening spatial filter : Gradient and
    laplacian filter, Filtering in frequency domain: basic properties, filtering in frequency domain

    SECTION II

    4. Morphological image processing 6 hrs
    Dilation & erosion, opening and closing operation , Hit- or –miss transformation. Basic
    morphological algorithms: Boundary extraction, region filling, thinning and thickening,
    skeletons.
    5. Image segmentation 6 hrs
    Detection of discontinuities: Point detection, line detection, edge detection, Sobel, Prewitt,
    Laplacian mask for edge detection, Thresholding , Role of illumination, global and adaptive
    thresholding , Region based segmentation : region growing, region splitting and merging.
    6. Image compression 6 hrs
    Fundamentals, Coding redundancy , interpixel redundancy, fidelity criteria , image
    compression model, lossless predictive coding, Lossy predictive coding , DCT
    compression.

    Text Books :
    1) Digital image processing : Rafael C Gonzalez , Richard E. Woods: Pearson
    PublicationImage
    2) Processing analysis and Machine vision: Milan sonka , Vaclav Hlavac : Thomson
    Publication

    Reference:
    1) Digital image processing- S. Jayraman, S Esakkiarajan , Veerakumar:MGH
    2) Digital image processing and Analysis- B. Chanda , D. Datta, majnudar:PHI
    3) Digital image processing using Matlab- Rafael C Gonzalez.
    4) Fundamentals of Digital Image Processing-S.Annadurai, R. Shanmugalaxmi :
    Pearson Publication

    Practical based on MATLAB programs:
    1. Reading & displaying of image (various image file format)
    2. Simple gray level transformation.
    3. Histogram processing.
    4. Image smoothening operation.
    5. Edge detection.
    6. Morphological operation.
    7. Segmentation using thresholding.
    8. Image compression using DCT.
    .

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    4. Subject : Speech Processing (Elective II)
    w.e.f July 2010
    Lectures : 4 hrs / week Theory : 100 Marks
    TW : 25 Marks

    SECTION –I

    1. Digital models for the speech signal 5 Hrs.
    Process of speech production, Acoustic theory of speech production, Lossless tube models,
    and Digital models for speech signals.
    2. Time domain models for speech processing 6 Hrs.
    Time dependent processing of speech, Short time energy and average magnitude, Short time
    average zero crossing rate, Speech vs silence discrimination using energy & zero crossings,
    Pitch period estimation, Short time autocorrelation function, Short time average magnitude
    difference function, Pitch period estimation using autocorrelation function, Median
    smoothing.
    3. Digital representations of the speech waveform 5 Hrs.
    Sampling speech signals, Instantaneous quantization, Adaptive quantization, Differential
    quantization, Delta Modulation, Differential PCM, Comparison of systems, direct digital
    code conversion.
    4. Short time Fourier analysis 4 Hrs.
    Linear Filtering interpretation, Filter bank summation method, Overlap addition method,
    Design of digital filter banks, Implementation using FFT, Spectrographic displays, Pitch
    detection, Analysis by synthesis, Analysis synthesis systems.

    SECTION – II

    5. Homomorphic speech processing 5 Hrs.
    Homomorphic systems for convolution, complex cepstrum, Pitch detection, Formant
    estimation, Homomorphic vocoder.
    6. Linear predictive coding of speech 6 Hrs.
    Basic principles of linear predictive analysis, Solution of LPC equations, Prediction error
    signal, Frequency domain interpretation, Relation between the various speech parameters,
    Synthesis of speech from linear predictive parameters, Applications.
    7. Speech Enhancement 4 Hrs.
    Spectral subtraction & filtering, Harmonic filtering, parametric re-synthesis, Adaptive noise
    cancellation.
    8. Speech Synthesis 5 Hrs.
    Principles of speech synthesis, Synthesizer methods, Synthesis of intonation, Speech
    synthesis for different speakers, Speech synthesis in other languages, Evaluation, Practical
    speech synthesis.

    Text Books:
    1. L. R. Rabiner and R. W. Schafer, “Digital Processing of Speech Signals," Pearson
    Education (Asia) Pte. Ltd., 2004.
    2. D. O’Shaughnessy, “Speech Communications: Human and Machine,” Universities
    Press, 2001.
    3. L. R. Rabiner and B. Juang, “Fundamentals of Speech Recognition,” Pearson
    Education (Asia) Pte. Ltd., 2004.
    4. Z. Li and M.S. Drew, “Fundamentals of Multimedia,” Pearson Education (Asia) Pvt.
    Ltd., 2004.

    Reference Books
    1. C Becchetti & L P Ricotti, “Speech Recognition Theory & C++ Implementation”
    John Wiley & Sons
    2. D. O’Shaughnessy, “Speech Communication Human & Machine”, Universities Press.
    3. B. Gold & N. Morgan “Speech & Audio Signal Processing”, John Wiley & Sons.

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    4.Subject : Pattern Recognition(Elective-II)
    w.e.f July 2010
    Lectures : 4 hrs / week Theory : 100 Marks
    TW : 25 Marks

    Section – I

    1. Introduction 03 Hrs
    Application of pattern recognition, statistical decision theory.
    2 .Probability 05 Hrs.
    Moments of random variables, estimation of parameters from samples, minimum risk
    estimators.
    3. Statistical decision making 06 Hrs
    Introduction, Bay’s theorem, multiple features, conditionally independent features,
    decision boundaries, unequal cost of error, estimation of error rates, the leaving one-out
    technique, characteristic curves, estimating the composition of population.
    4. Non parametric decision making 06 Hrs
    Introduction, histograms, kernel and window estimators, nearest neighbour classification
    techniques, adaptive decision boundaries, adaptive discriminate functions, minimum
    squared error discriminant functions, choosing a decision technique.

    Section – II

    5. Clustering 08 Hrs.
    Introduction, hierachecal clustering :- single linkage, complete linkage, Average linkage,
    Algorithms, wards method. Partitional clustering : - Forgy’s, K means, lsodata algorithm.
    6. Object Recognition 06 Hrs.
    Knowledge representation, statistical pattern recognition, Neural Nets:- feed forward
    network, unsupervised learning, hopefield neural net, Syntactic pattern recognition, fuzzy
    Optimization technique in recognition :- genetic algorithm, simulated ananealing.
    7. Case Studies 06 Hrs.
    Optical Music recognition system, automated identification of airway trees, automated
    image analysis in cardiology.

    Text Books :
    1) Earl Gose Richard Johnsonbangh & steve Jost patern recognition & image
    Analysis prestice Hall India – 2003.
    2) Pattern recognition principles. J.T.Toy, R.C. Gonzalez, (Addison Wesley)
    3) Image processing Analysis & machine vision. Milan sonka, Vaclav Hlavac, Roger
    Boyle.

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication)

    4. Subject : Mobile Communication (Elective II)
    w.e.f July 2010
    Lectures : 4 hrs / week Theory : 100 Marks
    T W : 25 Marks

    Section – I

    1. Introduction to Mobile Communication 6 Hrs.
    Mobile and Personal Communication, mobile and wireless devices, Specialized packet and
    mobile radio networks, circuit switched data services on cellular networks, packet switched
    data services on cellular networks
    2. Wireless LAN 9 Hrs.
    Introduction, Infrared radio transmission infrastructure and adhoc networks, Detailed study of
    IEEE 802.11, HIPER LAN, Bluetooth, Wireless ATM
    3. Mobile Network Layer 5 Hrs.
    Mobile IP, DHCP (Dynamic Host Control Protocol), Mobile adhoc networks
    Section – II
    4.Mobile Transport Layer 7 Hrs.
    Traditional TCP, Indirect TCP, Snooping TCP, Mobile TCP, Fast and Selective
    retransmission and recovery, Transaction oriented TCP, TCP over 2.5/3G wireless networks.
    5. Support for Mobility 7 Hrs.
    File systems, WWW, Wireless application protocol, i-mode, SyncML, WAP 2.0.
    6. Security issues in wireless systems 6 Hrs.
    Need for wireless security, Attacks on wireless networks, security services, WEP, VPN

    Reference Book:
    1. Mobile Communications: Jachen Schiller ( Addison Westy)
    2. Wireless Networks by P. Nicopolitidis, M. S. Obaidat, G. I. Papadimitriou, A. S.
    Pomportsis ; Wiley Pub.

    Practical: Any 8 experiments based on above syllabus.

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication) Part- I

    4. Subject : REAL TIME SYSTEMS (Elective II)
    w.e.f July 2010
    Lectures : 4 hrs / week Theory : 100 Marks
    TW : 25 Marks

    Section I

    1. INTRODUCTION 5 Hrs.
    Issues in Real Time Computing, Structure of a Real Time System, Task,Classes, Performance
    Measures for Real Time Systems, Estimating Program Run Times.
    2. TASK AND SCHEDULING 8 Hrs.
    Task Assignment and Scheduling – Classical uniprocessor scheduling
    algorithms,Uniprocessor scheduling of IRIS tasks, Task assignment, Mode changes, and
    Fault Tolerant Scheduling.
    3. PROGRAMMING LANGUAGES AND TOOLS 7 Hrs.
    Programming Languages and Tools – Desired language characteristics, Data typing,Control
    structures, Facilitating Hierarchical Decomposition, Packages, Run – time(Exception) Error
    handling, Overloading and Generics, Multitasking, Low levelprogramming, Task Scheduling,
    Timing Specifications, Programming Environments,Run – time support.

    Section II

    4. REAL TIME DATABASES 6 Hrs.
    Basic Definition, Real time Vs General Purpose Databases, Main Memory Databases,
    Transaction priorities, Transaction Aborts, Concurrency control issues, Disk Scheduling
    Algorithms, Two – phase Approach to improve Predictability, Maintaining Serialization
    Consistency, Databases for Hard Real Time Systems.
    5. COMMUNICATION 8 Hrs.
    Real – Time Communication – Communications media, Network Topologies Protocols,
    Fault Tolerant Routing. Fault Tolerance Techniques – Fault Types, Fault Detection. Fault
    Error containment Redundancy, Data Diversity, Reversal Checks, Integrated Failure
    handling.
    6. EVALUATION TECHNIQUES 6 Hrs.
    Reliability Evaluation Techniques – Obtaining parameter values, Reliability models for
    Hardware Redundancy, Software error models. Clock Synchronization – Clock, A Nonfault –
    Tolerant Synchronization Algorithm, Impact of faults, Fault Tolerant Synchronization in
    Hardware, Fault Tolerant Synchronization in software.

    TEXT BOOK:
    1. Krishna. C. M, Kang. G, Shin, “Real Time Systems”, McGraw Hill, 2003.

    REFERENCE BOOKS:
    1. Herma. K, “Real Time Systems – Design for distributed Embedded Applications”,
    Kluwer Academic, 2002.
    2. Real-Time systems by Jane W. S. Liu

    Term work : Total eight assignment based on Section I and Section II

    SHIVAJI UNIVERSITY, KOLHAPUR
    B.E.(Electronics and Telecommunication) Part- II

    5. Subject : Project
    w.e.f July 2010
    Practical : 8 hrs / week TW : 50 Marks
    POE: 150 Marks

    The project group of semester one will continue the project work in semester two and
    complete the project in all respect(assembly, testing, fabrication, tabulation, test results etc).
    The project work along with project report should be submitted as part semester two on or
    before the last day of the semester two.

    Subject equivalence for revised syllabus of B.E. (E & TC) w.e.f. 2010-2011

    B.E. Part – I

    Sr.No. Old Syllabus Subjects Equivalent Subject
    1 Digital Communication Digital Communication*
    2 Computer Communication Network Computer Communication Network
    3 Industrial and Power Electronics Microwave Engineering
    4 Satellite Communication Satellite Communication
    5 Elective – I Elective – I
    VLSI Technology VLSI Technology*
    Image Processing Image Processing
    Fuzzy logic Fuzzy logic*
    Note :- * Syllabus for these subjects is as per old Syllabus.

    B.E. Part – II

    Sr.No. Old Syllabus Subjects Equivalent Subject
    1 Broadband Communication Broadband Communication
    2 Mobile Communication Mobile Communication
    3 Audio – Video Engg. Audio – Video Engg.
    4 Elective – II Elective – II
    Digital Signal Processors Digital Signal Processors
    Embedded Systems Embedded Systems
    Pattern Recognition Pattern Recognition