National Institute ational of Technology
Hamirpur (H.P.)-177 005
Registration (M.Tech. / M.Arch. / MBA / Ph.D.)
Session 2010-2011

Total passport size photographs required: 04
Following documents and credentials are required and may please be arranged in
sequence for verification at the time of registration.
1. Class 10th (High School) Board Certificate as a proof of date of birth (Attested copy)
2. Certificate of Qualifying Examination (Attested copy)
3. Marks Sheet of Qualifying Examination (Attested copy)
4. Candidate appearing for final examinations must also bring the following additional documents:
A Certificate in original from the Principal/Director of their Institute stating that by June 30,2010, the
candidate will be appearing for final examination in all subjects required for obtaining their bachelor
degree.
 A certificate from the Principal/Director certifying that the candidate has obtained an average of 60%
marks or 6.75 CGPI (on ten point scale) based on latest available marks/grade.
5. Character Certificate (Attested copy)
6. Affidavit for giving reason for study gap (if any) duly sign Oath Commissioner / by Notary Public /
Executive Magistrate. (Original)
7. Certificate of Category (SC/ST/OBC*) (if applicable), issued by the competent Authority (Attested Copy)
SC, ST, OBC and PH candidates will be required to produce original certificate issued by the competent
authority at the time of registration, failing which they will not be considered for admission/ registration.
*OBC candidates will have to satisfy the caste and creamy layer requirements detailed on the following
National Commission for Backward Classes (ncbc) websites:
(a) http://ncbc.nic.in/backward-classes/index.html
(b) http://ncbc.nic.in/html/creamylayer.html
Very Important Note:
• OBC candidates should bring OBC certificate only in the prescribed performa.
• OBC Caste belonging to Central List is to be considered vide MHRD, GOI OM No.: 1-1/2005-
U.1.A/847 dated 20th April, 2008 Para VIII, Page 2.
Kind Attention:It is compulsory for the candidate to submit category certificate in the prescribed format.
If the verification reveals that the claim of the candidate to belong to SC/ST/OBC is false,
the admission of such candidate should be cancelled forthwith without assigning any further
reasons and without prejudice to such further action as may be taken under the provisions of the
Indian Penal Code for production of false certificate.
See letter no.:
8. Declaration / Undertaking-for OBC candidates only (if applicable) (Original)
9. Certificate of Physically Handicapped (if applicable) (Attested Copy)
For physically handicapped category a minimum of 40% disability is required and certificate issued on or
after January 1, 2010 will only be acceptable.
10. Medical Fitness Certificate issued by the Medical Officer of NIT dispensary or any Government Civil
hospital. (Original)
For medical certificate, student should know his / her blood group.
11. Migration Certificate (Original)
12. An ‘Undertaking’ by the student - Institutional (Original)
13. An ‘Affidavit by the student’ given in Annexure I [Anti-ragging measures] (Original)
14. An ‘Affidavit by parent / guardian’ given in Annexure II [Anti-ragging measures] (Original)
The students and their parents are required to submit the above mentioned affidavits at the time of registration.
Also, a student seeking admission to the hostel shall have to submit additional affidavits countersigned by his/her parents/guardians
in the form of Annexure I, II along with his/ her application for hostel accommodation.
15. No objection certificate from sponsoring organization (if any) (Original)
16. Gate Score Card (Attested Copy)

You will not be allowed to register if you fail to produce original certificates, mark-sheets and other
documents as mentioned above. You must bring two sets of attested photocopies of all the above
mentioned documents at the time of registration.
Note 1: If the original certificates are not in Hindi/English, duly certified Hindi/English version/translation of such
certificates will be required.

Dr. Sunil
Coordinator (Registration)
NIT-Hamirpur (HP)
01972-304134 (Off), 01972-304135 (Res), 09418156759 (Mobile)

Course Structure & Scheme for Master of Technology in Communication Systems & Networks
Department of Electronics & Communication Engineering
National Institute of Technology Hamirpur
Hamirpur-177005 Himachal Pradesh INDIA
http://nitham.ac.in
August 2008

1.DETAILS OF THE COURSE:
The Department of ECE has started second M.Tech. Programme in “Communication Systems and Networks”. This is proposed to develop manpower in the field of Communication, as there is a need for specialized work force in this fast changing scenario of communications. There is a need to train students in this rapidly growing field where working staff required is increasing day-by-day and these students have to be imparted knowledge pertaining to this field. In view of the present situation a PG course is approved to start w.e.f. 2008-2009. The department already runs a Bachelor Level Course on “Electronics & Communication Engineering” and an M.Tech. Programme in “VLSI Design Automation & Techniques”.
The faculty is well qualified and competent to run the programme proposed. Adequate laboratory facilities are available for B.Tech & M.Tech students. Care has been taken to include latest topics in communication and adequate optimal proposed. The duration of the course is two years and divided into 4 semesters. There are 5 subjects in semester I & II respectively, three labs and one Seminar with term paper plus preparatory work for dissertation in semester III. Dissertation work will continue in IV semester. The library at NIT, Hamirpur houses international journals & periodicals to be used during the course work.

2. Name of the course proposed to be introduced.
Title of Degree/Specialization, if any/Intake(Full Time)/Year of Commencement/Name of Degree and branch eligible for Admission
M.Tech./Communication Systems & Networks/25/2009/4 years B.E./B.Tech in Electronics/ E&CE/ CSE with first division. Candidates with valid GATE score preferred.

3.Course Structure & Scheme of Evaluation (Semester-Wise)
M.Tech. (Communication Systems & Networks) E&CE
SEMESTER-I
Course Code and Name of the subject/Contact/Hrs./week/Credits
Theory Papers
1. ECE-MC 101: Information Theory and Random Signals L T P 3 0 0 3
2. ECE- MC 102: Mobile Communication 3 0 0 3
3. ECE- MC 103: Optical Networks 3 0 0 3
4. ECE-MC 104: Advanced Digital Communication 3 0 0 3
5. ELECTIVE-I Practical /Viva-voce
6. ECE-MC 105: Digital Communication (Lab)3 0 0 3
7. ECE-MC 106: Fiber Optics (Lab) 3 2
Total 21 19

SEMESTER-II
Course Code and Name of the subject/Contact/Hrs./week/Credits
Theory Papers
1. ECE-MC 201: Digital Signal Processing L T P 3 0 0 3
2. ECE-MC 202: Computer Communication Networks 3 0 0 3
3. ECE-MC 203: Modeling and Simulation of Communication System and Networks 3 0 0 3
4. ECE-MC 204: Microwave Components & Devices 3 0 0 3
5. ELECTIVE-II: Practical /Viva-voce
6. ECE- MC 205: Communication System & Networks Simulation (Lab) 3 0 0 0 0 3 3 2
Total 18 17

SEMESTER-III
S.No/Course Code and Name of the subject/Contact Hrs./week/Credits
1.ECE-MC 301: Seminar with Term Paper 2 2 2.
ECE-MC 302: Dissertation (to be continued)
24 12
Total:26 14

SEMESTER-IV
Course Code and Name of the subject L / P Credits
1. ECE- MC -300: Dissertation 32 16
Total:32 16
TOTAL Credits = 66

LIST OF ELECTIVE:
ELECTIVE-I
Course Code and Name of the subject/Contact/Hrs./week/Credits
Theory Papers
L T P
1. ECE-MC 107: VLSI Design
2. ECE-MC 108: Satellite Communication
3. ECE-MC 109: Object Oriented Programming
4. ECE-MC 110: Information Security
5. ECE-MC 111: Computer Architecture
3 0 0  3 0 0  3 0 0  3 0 0  3 0 0 : 3 3 3 3 3

ELECTIVE-II
Course Code and Name of the subject/Contact/Hrs./week
Credits
Theory Papers
L T P
1. ECE-MC 206: Network management
2. ECE-MC 207: Mobile Computing
3. ECE-MC 208: Digital Image Processing
4. ECE-MC 209: CDMA
3 0 0  3 0 0  3 0 0  3 0 0 : 3  3  3  3  6

NOTE: Evaluation Related
1. The total number of credits of the Programme M. Tech. = 66
2. Each student shall be required to appear for examination in all courses.
3. Elective course will be offered only if minimum of 40% students will opt for a particular course.
4. The following marks scheme is done for evaluation in lab courses
Sessional=25 marks, Examination=25 marks, Total= 50 marks
5. The following marks scheme is done for evaluation of Dissertation
Presentation –I = 20 marks
Presentation –II = 20 marks
Final Presentation and Demo = 60 marks
6. Subjects evaluation shall be done as per PG manual of the institute.
Laboratories for the approved PG Programme

S.No./Name of the Laboratory in E&CED
1.Communication Lab
2.Optical fiber communication lab
3.Microwave Lab
4.Computer Lab
7.ECE-MC 101: INFORMATION THEORY AND RANDOM SIGNALS
    1. Measures of information: entropy, relative entropy and mutual information. Basic inequalities (Jensen, log-sum, Fano, data processing theorem).
    2. Data compression by fixed-to-variable-length codes: Unique decodability and the prefix condition. Kraft inequality, relationship of average codeword length to source entropy. Examples of coding techniques: Huffman, Shannon-Fano-Elias, Lempel-Ziv, universal.
    3. Data compression of discrete memoryless sources by fixed-to-fixed-length codes. Typicality and the asymptotic equi-partition property. Interpretation of entropy of this context.
    4. Entropy rate of stationary sources. Stationary Markov sources: entropy rate and data compression.
    5. Discrete memoryless channels. Definition of capacity and its computation.
    6. Communication over discrete channels: the channel coding theorem and the physical significance of capacity. Feedback in memoryless channels. The joint source-channel coding theorem. Elementary parity-check codes; maximum likelihood decoding.
    7. Measures of information for sources with continuous range.
    8. Discrete-time Gaussian channels and their capacity. Simple and parallel configurations. White and colored noise. Extension to band-limited waveform channels.
    9. Vector quantization of a discrete-time memoryless source under a fidelity criterion. Definition of the rate distortion function and its computation in simple cases. The rate distortion theorem.
    10. Probability functions, conditional probability, independence, random variables, probability distributions, conditional, distributions, transformations, expectations and moments, conditional expectation, bi- and multi-variate distributions, transformations, random processes, covariance and spectral density, Gaussian, Brownian, and Poisson types.
Books
1. T.M. Cover and J.A. Thomas, Elements of Information Theory, John Wiley (1991).
2. R.G. Gallager, Information Theory and Reliable Communication, Wiley (1968). for Discrete Memoryless Systems, Academic Press (1981).
3. R.J. McEliece, The Theory of Information and Coding, Addison-Wesley (1977).
4. Gray Davisson, Random Process Processes, Prentice- Hall, 1986.
5. Papoulis, Probability, Random Variables and Stochastic Processes, 3rd ed. McGraw-Hill, 1991.
6. Picinbono, Randam signals and Systems, Prentice Hall, 1993.Ross, Stochastic Processes, Wiley (1983).

ECE-MC 102: MOBILE COMMUNICATION
1. Introduction to Cellular Mobile Systems:
A basic cellular system, performance criteria, uniqueness of mobile radio environment, operation of cellular systems, planning a cellular system, analog & digital cellular systems.
2.Elements of Cellular Radio Systems Design:
General description of the problem, concept of frequency reuse channels, co-channel interference reduction factor, desired C/I from a normal case in an omni directional antenna system, cell splitting, consideration of the components of cellular systems.
3. Interference:
Introduction to co-channel interference, real time co-channel interference co-channel measurement design of antenna system, antenna parameter and their effects, diversity receiver in co-channel interference – different types.
4. Cell Coverage for Signal & Traffic:
General introduction, obtaining the mobile point to point mode, Radio propagation characteristics: models for path loss, shadowing and multipath fading, propagation over water or flat open area, foliage loss, propagation near in distance, long distance propagation, point to point prediction model- characteristics, cell site, antenna heights and signal coverage cells, mobile to mobile propagation.
5. Cell Site Antennas and Mobile Antennas:
Characteristics, antenna at cell site, mobile antennas
6. Frequency Management, Channel Assignment and hand off:
Frequency management, fixed channel assignment, non-fixed channel assignment, traffic & channel assignment, Why hand off, types of handoff and their characteristics, handoff analysis, dropped call rates & their evaluation.
7. Operational Techniques:
Parameters, coverage hole filler, leaky feeders, cell splitting and small cells, narrow beam concept.
8. Multiple access techniques used in mobile wireless communications:
FDMA/TDMA, CDMA. FDM/TDM Cellular systems, Cellular CDMA, soft capacity, Erlang capacity comparison of FDM/TDM systems and Cellular CDMA, Discussion of GSM standards; signaling and call control, mobility management; location tracting.
9. Wireless data networking:
Packet error modeling on fading channels, performance analysis of link and transport layer protocols over wireless channels; mobile data networking (mobile IP); wireless data in GSM, IS-95, and GPRS.
Text Books:
1. Mobile Cellular Telecommunications; 2nd ed.; William, C Y Lee McGraw Hill
2. Wireless and Digital Communications; Dr. Kamilo Feher (PHI)
3. Principles of Mobile Communication, G.LStuber Kluwer Academic, 1996
4. Wireless Communication; Principles and Practice; T.S.Rappaport
Reference Book
1. Mobile Communication Hand Book; 2nd Ed.; IEEE Press
2. Mobile Communication Engineering – Theory & Applications; TMH
3. Microwave mobile Communication, IEEE Press. W. Jakes,
4. A.Viteebi, CDMA, Principles of Spread Spectrum Communications, Addison Wesley, 1995.

ECE-MC 103: OPTICAL NETWORKS
1. Introduction to Optical Network: Services, Circuit Switching, Packet Switching, Optical Networks, Optical Layer, Transparency and All Optical Networks, Optical Packet Switching, Transmission Basics, Network Evolution.
2. Optical Amplifiers: Stimulated Emission, Spontaneous Emission, Erbium Doped Fiber amplifiers, Raman amplifiers, Semiconductor Optical Amplifiers, Cross talk in SOAs.
3. Multiplexers and Filters to Wavelength Converters: Gratings, Diffraction Pattern, Bragg Gratings, Fiber Gratings, Fabry-Perot filters, Multilayer Dielectric Thin-Film Filters, Mach-Zehnder Interferometers, Arrayed Waveguide Grating, Acousto-Optic Tunable Filter, High channel Count Multiplexer Architectures, Optoelectronics Approach, Optical Gating, Interferometric Techniques, Wave Mixing.
4. Transmission System Engineering: System Model, Power Penalty, Transmitter, Receiver, Optical Amplifiers, Cross talk, Dispersion, Fiber Nonlinearities, Wavelength Stabilization Design of Soliton Systems, Design of Dispersion –Managed Soliton Systems.
5. Client Layers of the Optical Layer: SONET/SDH, ATM, IP, Storage Area Networks, Gigabit and 10-Gigabit Ethernet.
6. WDM Network Elements & Design: Optical Line Terminals, Optical Line Amplifiers, Optical Add/Drop Multiplexers, Optical Cross connects. Cost Trade-Offs: A Detailed Ring Network Example, LTD and RWA Problems, Dimensioning Wavelength-Routing Networks, Statistical Dimensioning Models, Maximum Load Dimensioning Models
7. Access Networks: Network Architecture Overview, Enhanced HFC, fiber to the Curb (FTTC).
Books
1. Optical Networks: A practical Perspective. RAMASWAMI & K.N. SIVARAJAN Morgan Kaufmann 2nd Edition. G.P. Agarwal, " Fiber optic communication systems ", 2nd Edition, John Wiley & Sons, New York, 1997.
2. Franz and Jain, " Optical communication system ", Narosa Publications, New Delhi, 1995.
3. G.Keiser, " Optical fiber communication ", Systems, McGraw-Hill, New York, 2000.
4. Franz & Jain, " Optical communication ", Systems and components, Narosa Publications,
New Delhi, 2000.
5. Multiwavelength Optical Networks: A Layered Approach Thomas E. Stern and Krishna Bala Addison Wesley
- Introduction to Optical Fiber Communications Systems William B. Jones HRW
- Optical WDM Networks Principles and Practice Edited by K. M. Sivalingam & S. Subramaniam Kluwer Academic Publishers.

ECE-MC 104: ADVANCED DIGITAL COMMUNICATION
1.Introduction:
Functional architecture coded and encoded digital communication system architecture, Types of network and services, Performance criterion and link budgets
2.Digital Modulations:
PSD, Data pulse stream, M-ary Markov source, convolutionally coded modulation, continuous phase modulation (CPM), Scalar and vector communications over memory less channel, scalar receiver ,BER Performance, detection criterion
3. Coherent And Non-Coherent Communication With Waveforms:
Optical receiver in WGN, MF receiver, Matrix generation, colored GN, Whitening approach, In phase and Quadrature phase modem, Non-coherent receivers, Random phase channel, Optimum and suboptimum MFSK, Performance of Non-coherent Receivers in Random phase channel, optimum receivers in Rayleigh and Rician channels, M-ary symbol error probability
4. Band Limited Channels:
Optimum pulse shape design, optimum demodulations of digital signals in the presence of ISI and
AWGN, equalization techniques, diminishing and detection I-Q modulation, QAM, QPSK, QBM, CPM, FSK, MSK
5. Coded Digital Communication:
Architecture, interfacing, detailing, Synchronization, block coded digital communication system, performance, types of binary block codes, Shannon channel coding theorem, linear block codes, convolutional coded digital communication system, representation of convolution codes, decoding, problems of decreasing errors, sequencing and threshold decoding
Books:
1. M.K.Simon,S.M.Hinedi and W.C.Lindsey, Digital communication techniques: signalling and
Detection, Prentice Hall India, New Delhi. 1995
2. Simon Haykin, Digital communications, John Wiley and sons,1998
3. Wayne Tomasi, Advanced Electronic communication systems,4th Edition, Pearson Education Asia,1998
4. B.P.Lathi,Modern Digital and analog communication systems,3rd Edition, Oxford University Press,1998.

ECE-MC 107: VLSI DESIGN
1. Introduction
Basic principle of MOSFETs, Introduction to large signal MOS models (long channel) for digital design.
2. The MOS Inverters
Static and Dynamic characteristics: Inverter principle, Depletion and enhancement load inverters, the basic CMOS inverter, transfer characteristics, logic threshold, Noise margins, and Dynamic behavior, transition time, Propagation Delay, Power Consumption.
3. MOS Circuit Layout & Simulation
Layout design rules, MOS device layout: Transistor layout, Inverter layout, CMOS digital circuits layout & simulation, Circuit Compaction; Circuit extraction and post-layout simulation.
4. Combinational MOS Logic Design
Static MOS design: Complementary MOS, Ratioed logic, Pass Transistor logic, complex logic circuits, DSL, DCVSL, Transmission gate logic.
Dynamic MOS design: Dynamic logic families and performances.
Memory Design: ROM & RAM cells design
5.Sequential MOS Logic Design
Static latches, Flip flops & Registers, Dynamic Latches & Registers, CMOS Schmitt trigger, Monostable sequential Circuits, Astable Circuits.
Adders, Multilpier Circuits.
6. Interconnects & IO Buffers
Interconnect delays, Cross Talks. Introduction to low power design, Input and Output Interface circuits.
7. BiCMOS Logic Circuits
Introduction, Basic BiCMOS Circuit behavior, Switching Delay in BiCMOS Logic circuits.
Text Book:
1. Kang & Leblebigi “CMOS Digital IC Circuit Analysis & Design”- McGraw Hill, 2003
2. JM Rabey, “Digital Integrated Circuits Design”, Pearson Education, Second Edition, 2003
3. Weste and Eshraghian, “Principles of CMOS VLSI design” Addison-Wesley, 2002
Reference Books:
1. W Wolf “Modern VLSI Design”.
2. David A. Hodges, Horace G. Jackson, Resve Saleh, “Analysis & Design of Digital
Integrated Circuits”, 3rd Edi Mc Graw Hill, 2003.

ECE-MC 108: SATELLITE COMMUNICATION
1. Orbital Parameters:
Orbital parameters, Orbital perturbations, Geo stationary orbits, Low Earth and Medium orbits. Frequency selection, Frequency co-ordination and regulatory services, Sun transit outages, Limits of visibility, Attitude and orientation control, Spin stabilization techniques, Gimbal platform
2. Link Calculations:
Space craft configuration, Payload and supporting subsystems, Satellite uplink -down link power budget, C/No, G/T, Noise temperature, System noise, Propagation factors, Rain and ice effects, Polarization calculations
3. Access Techniques:
Modulation and Multiplexing: Voice, Data, Video, Analog and Digital transmission systems, multiple access techniques: FDMA, TDMA, T1-T2 carrier systems, SPADE, SS-TDMA, CDMA, Assignment Methods, Spread spectrum communication, Compression-Encryption and Decryption techniques
4. Earth Station Parameters:
Earth station location, propagation effects of ground, High power transmitters-Klystron Crossed field devices, Cassegrania feeds, Measurements on G/T and Eb/No
5. Satellite Applications:
INTELSAT Series, INSAT, VSAT, Remote sensing, Mobile satellite service: GSM. GPS, INMARSAT, Satellite Navigation System, Direct to Home service (DTH), Special services, E-mail, Video conferencing and Internet connectivity
Books:
1. Bruce R. Elbert,” The Satellite Communication Applications Hand Book, Artech House Boston, 1997
2. Wilbur L.Pritchard, Hendri G.Suyderhood, Robert A.Nelson, "Satellite Communication Systems Engineering" ,IIEdition, Prentice Hall, New Jersey.1993
3. Dennis Rody," Satellite Communication", Regents/Prentice Hall, Eaglewood Cliff, New Jersey, 1983
4. Tri T.Ha, "Digital satellite communication", 2nd Edition, McGraw Hill, New york.1990
5. K.Feher, Digital communication satellite / Earth Station Engineering, prentice Hall Inc, New Jersey, 1983

ECE-MC 109: OBJECT ORIENTED PROGRAMMING
Concepts of Object-Oriented Programming
Oriented Programming Paradigm, Basic concepts of OOP’s, Benefits of OOPS, Introduction to object oriented design and development, Design steps, Design example, Object oriented languages, Comparison of structured and object-oriented programming languages.
Arrays, Pointers and Functions
Arrays, Storage of arrays in memory, Initializing Arrays, Multi-Dimensional Arrays, Pointers, accessing array elements through pointers, Passing pointers as function arguments, Arrays of pointers, Pointers to pointers, Functions, Arguments, Inline functions, Function Overloading Polymorphism.
Classes and Objects
Data types, operators, expressions, control structures, arrays, strings, Classes and objects, access specifiers, constructors, destructors, operator overloading, type conversion.
Storage classes
Fixed vs Automatic declaration, Scope, Global variables, The register specifier, Dynamic memory allocation.
Inheritance
Inheritance, single Inheritance, Multiple Inheritance, Multi level inheritance, hierarchical inheritance, hybrid inheritance, Virtual functions, Friend functions, Generic programming with templates.
Streams and Files
Opening and closing a file, File pointers and their manipulations, Sequential Input and output operations, multi-file programs, Random Access, command line argument, string class, Date class, Array class, List class, Queue class, User defined class.
Exception Handling and Graphics
List of exceptions, catching exception, handling exception. Text Mode, Graphics mode functions, Rectangles, and Lines, Polygons & Inheritance, Sound & Motion, Text in Graphics Mode.
TEXT BOOKS
1. Robert Lafore, Object Oriented Programming in Turbo C++, Galgotia Publications, 1993.
2. E.Balagurusamy, Object Oriented programming with C++, Tata McGraw Hill, 1995.
REFERENCE BOOKS
1. Bjarne Strustrup, The C++ programming Language, Addison Wesley, Third Edition, 1998.
Booch, Object Oriented Analysis and Design with Applications, Addison Welsey.

ECE-MC 110: INFORMATION SECURITY
1. Introduction
Introduction to OSI Network Security Architectures, Services, Mechanisms and Attacks, Classical Encryption Techniques, Symmetric cipher model, Substitution techniques, Transposition techniques, Rotor Machines, Steganography.
2. Cryptographic Techniques - An overview of Cryptology, Primality test, Perfect security, Stream Cipher Stream ciphers: The one time pad. Pseudo-random key streams - properties and generation. Block Cipher -, Introduction to DES, differential and Linear Cryptanalysis, Block Cipher Cryptography, Triple DES Algorithm, International Data Encryption Algorithm (IDEA), Blowfish Algorithm, RC-x Algorithms, CAST-x Algorithms, Symmetric Block Cipher Schemes, Encryption Function Placement and Confidentiality problems. Cryptographic hash functions, Digital signatures,
3. Public-Key Cryptography and Message Authentication
The Key Distribution Problem, Random Number Generation, The Public-Key Cryptosystems, The RSA Algorithm, The Key Management riddle, The Diffie-Hellman Key Exchange, Elliptic Curve Cryptography. Introduction to Message Authentication, requirements and functions, Message Authentication Codes, Hash Functions, their Security and other considerations
4. Authentication Applications
The Message Digest (MD5) Algorithm, The Secure Hash Algorithm (SHA-1), RIPEMD-x and HMAC fundamentals, Digital Signature basics, Authentication Protocols, The Digital Signature Standard, Introduction to the Kerberos Authentication scheme, The X.319 Directory Authentication scheme.
5. Systems and Applications Security - Authentication, Access control policies, Mail security, PGP, Data (base) security, File system security, Program security, Memory security, Session security, SSH, Web security, Web applications security, Sandboxing, Linux security , Windows 2000.
6. Security Protocols - Security properties, attacks, Design of a security protocol, Examples of security protocols, Contract signing protocols, Formal models of protocols and detecting leaks, Electronic voting protocols, IPSec,, SSL, TLS worms and viruses, micro payments, smart card security, Security of wired / wireless networks
7. Intrusion detection - Key Management in Group Communication Systems, Router security, Denial of service and side-channel attacks, Intrusion Detection Systems, Intrusion detection techniques - centralized and distributed;
TEXT BOOKS
1. William Stallings, Cryptography and Network Security: Principles and Practice, Third Edition, Pearson Education, New Delhi
REFERENCE BOOKS
1. C. Kaufman, R. Perlman and M. Spenser, Network Security, Second Edition, Prentice-Hall, Englewood Cliffs, .
2. S. Bellovin and W. Chesvick, Internet Security and Firewalls, Second Edition, Addison-Wesley, Reading,

ECE-MC 111: COMPUTER ARCHITECTURE
Parallel Computer Models:
The state of computing, multiprocessors and multicomputers, multivector and SIMD computers, architectural development tracks.
Program and Network Properties:
Conditions of parallelism, program partitioning and scheduling, program flow mechanisms. System Interconnect Architectures. Network properties and routing, static interconnection networks and dynamic interconnection networks, MPI and PVM architecture.
Processors and Memory Hierarchy:
Advanced processor technology- CISC, RISC, Superscalar, Vector, VLIW and symbolic processors, Memory hierarchy technology, Virtual memory technology (Virtual memory models, TLB, paging and segmentation)
Bus, Cache and Shared Memory:
Cache memory organization, shared memory organization, sequential and weak consistency models.
Pipelining and Super scalar techniques:
Linear Pipeline Processors, Nonlinear Pipeline processors, Instruction Pipeline Design, Arithmetic Pipeline Design
Parallel and Scalable Architecture:
Multiprocessors System Interconnects, Cache Coherence and Synchronization Mechanisms, Vector Processing Principles, Multivector Multiprocessors and Data Flow Architecture.
Text:
1. Kai Hwang “Advanced Computer Architecture”, McGraw Hill.
References:
1. J.P. Hayes “Computer Architecture and Organization”, McGraw Hill.
2. Harvey G. Cragon, “Memory Systems and Pipelined Processors”, Narosa Publication.
3. V. Rajaranam & C.S.R. Murthy, “Parallel Computers”, PHI.
4. R. K. Ghose, Rajan Moona & Phalguni Gupta, “Foundation of Parallel Processing”, Narosa Publications.
5. Kai Hwang and Zu, “Scalable Parallel Computers Architecture”, McGraw Hill.
6. Stalling W., “Computer Organization & Architecture”, PHI.

ECE-MC 201: DIGITAL SIGNAL PROCESSING
1. Discrete time signals and systems: Z-transforms, structures for digital filters, design procedures for FIR and IIR filters. Frequency transformations: linear phase design; DFT. Methods for computing FFT. Noise analysis of digital filters, power spectrum estimation.
2. Signals and signal Processing: characterization & classification of signals, typical Signal Processing operations, example of typical Signals, typical Signals Processing applications.
3. Time Domain Representation of Signals & Systems: Discrete Time Signals, Operations on Sequences, the sampling process, Discrete-Time systems, Time-Domain characterization of LTI Discrete-Time systems, state-space representation of LTI Discrete-Time systems, random signals.
4. Transform-Domain Representation of Signals: the Discrete-Time Fourier Transform, Discrete Fourier Transform, DFT properties, computation of the DFT of real sequences, Linear Convolution using the DFT. Z-transforms, Inverse z-transform, properties of z-transform, transform domain representations of random signals.
5. Transform-Domain Representation of LTI Systems: the frequency response, the transfer function, types of transfer function, minimum-phase and maximum-Phase transfer functions, complementary transfer functions, Discrete-Time processing of random signals.
6. Digital Processing of Continuous-Time Signals: sampling of Continuous Signals, Analog Filter Design, Anti-aliasing Filter Design, Sample-and-hold circuits, A/D & D/A converter, Reconstruction Filter Design.
7. Digital Filter Structure: Block Diagram representation, Signal Flow Graph Representation, Equivalent Structures; bone FIR Digital Filter Structures, IIR Filter Structures, State-space structure, all pass filters, tunable IIR Digital filters, cascaded Lattice realization of IIR and FIR filters, Parallel all pass realization of IIR transfer function, Digital Sine-Cosine generator.
8. Digital Filter Design: Impulse invariance method of IIR filter design, Bilinear Transform method of IIR Filter Design, Design of Digital IIR notch filters, FIR filter Design based on truncated fonner sens, FIR filter design based on Frequency Sampling approach.
9. Applications of DSP. Multirate Digital Signal Processing: Introduction, decimation and interpolation, sampling rate conversion by a rational factor I/D, filter design and implementation of sampling rate conversion direct form, polyphase and time variant filter structures, multi stage implementation of sampling rate conversion.
Books:
1. Sanjit K. Mitra, “Applications DSP a Computer based approach” , TMH.
2. L.R.Rabinar and B.Gold- Theory and Applicatiion of Digital Signal Processing,PHI
3.Proakis, “ Digital Signal Processing” PHI, Second edition
4.Allan Y. Oppenhein & Ronald W. Schater , "Digital Signal Processing”, PHI
References:
1. Monson H. Hayes, “ Schaum’s Outline of Digital Signal Processing”, Mcgraw Hill, 1999.
2. Richard W. Hammming, “Digital Filters”, Dover Pubns, 1998.
3. Lars Wanhammar, “ DSP Integrated Circuits”, Academic Press, First edition, 1999.
4. Simon S. Haykin, “ Adaptive Filter Theory, “ Prentice Hall, 3rd Edition.

ECE-MC 202: COMPUTER COMMUNICATION NETWORKS
1.Introduction
Introduction to Network models-ISO-OSI, SNA, Appletalk and TCP/IP models, Fundamentals of digital communication, channel capacity, bit error rate, media characteristics, FDM, TDM, CDMA, statistical multiplexing, point to point and broadcast communication
2.Queuing Models
Poisson Process, Markov chain, M/M/1 Queue- delay and little’s formula, M/M/S/K Queues – average queue length, delay and waiting times, M/G/1 Queues
3.Data link protocols
Stop and wait protocols and Sliding window protocols - - performance and efficiency. Verification of protocols using Finite State Machines. Multi access protocols – ALOHA and CSMA and its variations. IEEE models and protocols- 802.3,802.4,802.5 and DQDB, Adhoc networks.
4.Network layer
Design issues for VC and datagram. Routing algorithms- Dijsktra’s , Bellman-Ford, Flooding and broadcasting, link state routing, Flow and congestion control, internetworking, internet architecture and addressing
5.Transport layer
Design issues, Connection management, Elements of TCP/IP protocol, Finite state machinemodel
6.Session and presentation layer
Dialog management, synchronization and session primitives, presentation concepts, cryptography – DES, DES chaining, AES, Public key methods, MD5. Secure Socket layer.
7.Application layer
SNMP, SMTP, RMON, DNS, email service, MIME and WWW
8.ATM and B-ISDN
Introduction to ATM, ATM layers and applications, ATM over IP, narrowband and broadband ISDN
9.Case study
Study of various network simulators, Network performance analysis using NS2
Books:
1. Andrew S. Tanenbaum “ Computer Networks” by Pearson Education, fourth edition.
2. Bertsekas and Gallagher “ Data Networks” by Prentice hall, Second Edition
References:
1. William Stallings “ Data and Computer Communication” , by Prentice hall, Seventh edition
2. William Stallings “ Cryptography and Network security” by PHI, Third edition
3. Fred Halsall “ Data Communications, Computer Networks and Open Systems” by Pearson Education, Fourth edition
4. William Shay “ Understanding data Communication and Networks” by Thomson press Second edition
5. William Stallings “ High speed Networks and Internets” by Pearson education, second edition
6. Leon- Garcia and Widjaja “ Computer Networks” by TMH, Second edition

ECE-MC 203: MODELING AND SIMULATION OF COMMUNICATION SYSTEM AND NETWORKS
1. Modelling Of Communication System
Model of speech and picture signals, Pseudo noise sequences, Non-linear sequences, Analog channel model, Noise and fading, Digital channel model-Gilbert model of bustry channels, HF, Troposcatter and satellite channels, Switched telephone channels, Analog and Digital communication system models, Light wave system Models.
2. Simulation Of Random Variables And Random Process
Univariate and multivariate models, Transformation of random variables, Bounds and approximation, Random process models-Markov AND aARMA Sequences, Sampling rate for simulation, Computer generation and testing of random numbers
3. Estimation Of Performance Measures
Quality of an estimator, estimator of SNR, Probability density functions of analog communication system, BER of Digital communication systems, Montre Carlo method and Importance sampling method, estimation of power, Spectral density of a process
4. Communication Networks
Queuing models, M/M/I and M/M/I/N queues, little formula, Burke’s theorem/G/I queue, Embedded Markov Chain analysis of TDM systems, Polling, Random access systems
5. Network Of Queues
Queues in tandem, store and forward communication networks, capacity allocation, Congestion and flow Chart, Routing model, Network layout and Reliability
Books:
1. M.C.Jeruchim, Philip Balaban and K.Sam Shanmugam, "Simulation of communication systems", Plenum Press,New York,1992
2. A.M.Law and W.David Kelton, "Simulation Modelling and analysis", Mc Graw Hill Inc., New York ,1991
3. J.F.Hayes, "Modeling and Analysis of Computer Communication networks, Plenum Press, New York,1984
4. Jerry Banks and John S.Carson, Discrete-event system Simulation", Prentice Hall,Inc.,NewJersey,1984

ECE-MC 204: MICROWAVE COMPONENTS & DEVICES
1. Microwave devices:
Multi cavity Klystron, Reflex Klystron, Magnetron, Traveling Wave Tube, Tunnel diode, Gunn Diode, PIN diode, Masers.
2. Microwave circuits:
Wave-guides, Scattering matrix, Impedance transformation & Matching, passive microwave devices, attenuator, resonators, ferrite devices circulators, isolators, gyrator, directional coupler, microwave tees
3. Microstrips lines, design, analysis:
Introduction, types of MICs and their technology, Propagating models, Analysis of MIC by conformal transformation Numerical analysis, Hybrid mode analysis, losses in Microstrip , Introduction to slot line and coplanar wave guide
4. Coupled microstrip, directional couplers and lumped elements for MICs:
Introduction to coupled Microstrip, Even and odd mode analysis, Directional couplers, branch line couplers, Design and Fabrication of Lumped elements for MICs, Comparison with distributed circuits
5. Non-reciprocal components and active devices for MICs:
Ferromagnetic substrates and inserts, Microstrip circulators, Phase shifters, Microwave transistors, Parametric diodes and Amplifiers, PIN diodes, Transferred electron devices, IMPATT, BARITT, Avalanche diodes
6. Microstrip circuit design and applications:
Introduction, Impedance transformers, High power circuits, Low power circuits, MICs in satellite and Radar
7. MMIC technology:
Fabrication process of MMIC, Hybrid MICs, Configuration, Dielectric substances, thick and thinfilm technology, Testing methods, Encapsulation and mounting of Devices.
Books
1. Liao S.Y.: Microwave Circuits & Devices. PHI.
2. Chatterjee r.: Fundamentals of Microwave Engineering/ East-West.
3. Siegman A.E.: An Introduction to Lasers & Masers. McGraw Hill.
4. Collin R.E. : Foundation for Microwave Engineering. McGraw Hill
5. Hoffman R.K."HandBook of Microwave intergrated circuits",Artech House,Boston,1987.
6. K.C Gupta, & A Singh: Microwave Engineering and Systems Applications, EA wolff & R FAUL, WILEY.
7. Combesetal P.F: Microwave components, Devices and Active Circuits, John Wiley & Son.
8. FUSCO VINIENI F.: Microwave circuits Analysis and computer Aided design. Prentice Hall – 1987.

ECE-MC 206: NETWORK MANAGEMENT
1. Fundamentals of Computer Network Technology:
Network Topology, LAN, Network node components Hubs, Bridges, Routers, Gateways, Switches, WAN, ISDN Transmission Technology, Communications protocols and standards
2. OSI Network Management:
OSI Network management model-Organizational model-Information model, communication model, Abstract Syntax Notation - Encoding structure, Macros Functional model CMIP/CMIS
3. Internet Management (SNMP):
SNMP-Organizational model-System Overview, The information model, communication model-Functional model, SNMP proxy server, Management information, protocol remote monitoring
4. Broadband Network Management:
Broadband network s and services, ATM Technology-VP, VC, ATM Packet, Integrated service, ATM LAN emulation, Virtual Lan. ATM Network Management-ATM Network reference model, integrated local management Interface. ATM Management Information base, Role of SNMD and ILMIin ATM Management, M1, M2, M3, M4 Interface, ATM Digital Exchange Interface Management
5. Network Management Applications:
Configuration management, Fault management, performance management, Event Correlation Techniques security Management, Accounting management, Report Management, Policy Based Management Service Level Management
Books:
1. Mani Subramanian, " Network Management Principles and practice ", Addison
Wesly New York, 2000.
2. Salah Aiidarous, Thomas Plevayk, " Telecommunications Network Management Technologies and Implementations ", eastern Economy Edition IEEE press, New Delhi, 1998.
3. Lakshmi G. Raman, " Fundamentals of Telecommunication Network Management ", Eastern Economy Edition IEEE Press, New Delhi, 1999

ECE-MC 207: MOBILE COMPUTING
1.Wireless and Mobile Network Architecture:
Principle of Cellular Communication, Overview 1G, 2G, 2.5G and 3G and 4G technologies, GSM Architecture and Mobility management, hand off management, Network signaling. Mobile Computing fundamental challenges, Mobile Devices –PDA and mobile OS, PalmOs, Win CE and Symbian.
2. Mobile IP Protocol Architecture: Mobile IP and IP v 6 and its application in mobile computing. Cellular Digital Packet Data CDPD, VOIP, GPRS Services, Wireless Local Loop-WLL system.
3. Wireless Application Protocol (WAP):
The Wireless Application Protocol application environment, wireless application protocol client software, hardware and websites, wireless application protocol gateways, implementing enterprise wireless application protocol strategy,
4. Wireless Markup Language:
An Introduction to Wireless Technologies, Markup Languages , An Introduction to XML, Fundamentals of WML., Writing and Formatting Text , Navigating Between Cards and Decks, Displaying Images, Tables, Using Variables, Acquiring User Input
5. Wireless Markup Language Script:
An Introduction to WMLScript, WMLScript Control Structures, Events, Phone.com Extensions, Usability
6. Application of Mobile computing:
ASP and Dynamic WAP Sites, XML and XSLT, Dynamic WML Generation with ASP and XSLT, Developing WAP Applications using Emulators.
7. Distributed Mobile Computing :
Distributed OS and file systems, Mobile Computing Software (Pervasive Computing) Development Strategies and tools, Data Management for Mobile Computing.
Books:
1. Yi Bing Lin, “Wireless and Mobile Networks Architecture”, John Wiley.
2. Wrox “The Beginning WML and WML Script”, Wrox Publication
3. Tomasz Imielinski et.al, Mobile Computing, Kluwer Academic Press 1996.
4. Uwe Hansmann, Pervasive Computing Handbook. The Mobile World, IEE publication 2002
5. Jochen Burkhardt, et.al. Pervasive Computing, Technology and Architecture of Mobile Internet Applications, Addison Wesley, 2002

ECE-MC 208: DIGITAL IMAGE PROCESSING
1. Introduction And Digital Image Fundamentals
Digital Image Representation, Fundamental Steps in Image Processing, Elements of Digital image processing systems, Sampling and quantization, some basic relationships like neighbours, connectivity, Distance measure between pixels, Imaging Geometry.
2. Image Transforms
Discrete Fourier Transform, Some properties of the two-dimensional fourier transform, Fast fourier transform, Inverse FFT.
3. Image Enhancement
Spatial domain methods, Frequency domain methods, Enhancement by point processing, Spatial filtering, Lowpass filtering, Highpass filtering, Homomorphic filtering, Colour Image Processing.
4. Image Restoration
Degradation model, Diagnolization of Circulant and Block-Circulant Matrices, Algebraic Approach to Restoration, Inverse filtering, Wiener filter, Constrained Least Square Restoration, Interactive Restoration, Restoration in Spatial Domain.
5. Image Compression
Coding, Interpixel and Psychovisual Redundancy, Image Compression models, Error free comparison, Lossy compression, Image compression standards.
6. Image Segmentation
Detection of Discontinuities, Edge linking and boundary detection, Thresholding, Region Oriented Segmentation, Motion based segmentation.
7. Representation and Description
Representation schemes like chain coding, Polygonal Approximatiion, Signatures, Boundary Segments, Skeleton of region, Boundary description, Regional descriptors, Morphology.
8. Recognition and Interpretation
Elements of Image Analysis, Pattern and Pattern Classes, Decision-Theoretic Methods, Structural Methods, Interpretatiion.
Text
1. Rafael C. Conzalez & Richard E. Woods, “Digital Image Processing”, AWL.
2. A.K. Jain, “Fundamental of Digital Image Processing”, PHI.
Reference
1. Rosefield Kak, “Digital Picture Processing”,
2. W.K. Pratt, “Digital Image Processing”, 23
ECE-MC 209: CDMA
1. Principles of CDMA: The concept of spreading, cellular mobile network, spreading codes and their properties, method for handling interference in CDMA mobile radio networks, application of CDMA.
2. CDMA transmission models: Representation of CDMA signals, the discrete channel model for synchronous transmission in a frequency-flat channel, the discrete channel model for synchronous wideband MC-CDMA transmission, the discrete model for asynchronous wideband CDMA transmission.
3. CDMA channel and power control: IS-95 CDMA forward channel, IS-95 CDMA reverse channel., power control: reverse link power control and forward link power control.
4. Receiver structure for synchronous transmission: The single –user matched filter receiver, optimal receiver structure, sub-optimal linear receiver structures, sub optimal nonlinear receiver structure.
5. Receiver structure for MC-CDMA and asynchronous wideband CDMA transmission: The RAKE receiver, performance of RAKE receiver, optimal receiver structure.
6. CDMA systems: Wideband CDMA, Time division CDMA, CDMAone, CDMA2000: frequency allocation, code allocation, data transmission, channel coding and multiplexing, spreading and modulation, cell search and synchronization, random access, power control and handover.
7. Overview of OFDM: General principles, implementation and signal processing aspect for OFDM, synchronization and channel estimation aspect, interleaving and channel diversity, modulation and channel coding and OFDM systems.
Text Books:
1.Henrik Schulze & Cristion Luders, “Theory application of OFDM and CDMA wideband wireless communication.” John Wiley & Son Ltd.
Reference Book:
1.Kavesh Pahlaven & Prashant Krishnamurty,”Principles of wireless networks” PHI Pub.
2. Theodore S. Rappaport, “Wireless communication Principles & Practice” PHI Pub.

Computer Lab
S.No./Name of Equipment/Qty.
1.Constant voltage transformer (CVT) 06
2.i) 132-column printer./02
ii) HP Laser jet 4000 series printer/01
iii) Dot Matrix printer (HQ 1050+)/03
iv) Laser printer. 4100/02
v) Laser printer HP 1150/03
vi) Desk jet Cannon S 200/02
3.Electronics workbench software (for the simulation of Analog and digital circuit)/01
4.i) UPS 5KVA (1+1+1)/02
ii) UPS 500 VA/01
iii) UPS 1 KVA on line/03
iv) UPS 650 VA/08
v) UPS600VA/01
5.Euro cleans electronics Vacuum Cleaner/01
6.PC/XT AT (DMS/PC/XT)/02
PC/XT AT-286 based systems/04
Workstation/01
Pentium 266 MHz/02
Intel P-III 500 MHz or higher (HCL)/10
Desktop (P-III) Compaq/10
Intel P-III @ 800 MHz (Compaq)/05
Pentium -III/02
Pentium –IV (Compaq)/03
Intel P-III 700 MHz/01
Comp P-IV/01
7.ORCAD Software/01
8.Office 2000 software/01
9.Air conditioners (Window mounted)/06
10.Internal CD Writer/05
External CD Writer/02
11.Multi media projector/01
12.VHDL Editor simulator software/01
13.GPGA/CPLD trainer kit/01
14.Audio system with Amplifier with two speaker/01 25
Communication Lab.
S.No./Name of Equipment/Qty.
1.Attenuator Db/01
2.A.F Power Meter/02
3.A.F Output meter/A.F output power meter 1+5 /06
4.Function generator 20 MHz/02
5.Blocking oscillator/01
6.Dual Trace Oscilloscope 20 MHz (6+2+2) /10
7.Decade Capacitance box 100 PF to 10 uF /01
8.Generator single pulse (10 MHz) 1+2 with manual /03
9.Field strength meter (Grunding ME-80) /01
10.Hartley oscillator/01
11.Multimeter digital (3½ digit) (1+3+3)/07
12.Distortion factor meter /01
13.Pulse generator /05
14.Amplitude Modulator and Demodulator Trainer system with power supply /02
15.Pulse width modulation & pulse position 2+2 /04
16.Phase lock loop demonstrator with power supply /02
17.RC Oscillator /02
18.RF single generator /01
19.RF Attenuator /01
20Servo controlled voltage stabilizer (7.5 KVA) /02
21.Study of pulse amplitude modulation and demodulation /01
22.Study of pulse width modulation and demodulation /01
23.Study of pulse position modulation and demodulation /01
24.Transistor circuit trainer/Bistable monostoble/Astable RC /01
25.Tutor for clipping clamping & comparator /01
26.Audio oscillator /02
27.Pulse amplitude modulator & demodulator trainer with power supply /02
28.Double pulse generator (10 MHz) /01
29.Decade resistance box 2+3 /05
30.Delta modulation /demodulation modules /02
31.Digital multimeter (4½) (3+2) /05
32.Digital storage oscilloscope with wave form processor with single probe /01
33.Emitter follower /03
34.Function generator (Type-III (1 MHz) /07
35.Frequency counter (600 MHz) & Frequency counter (80 MHz) 2+2 /04
36.Function generator /02
37.FM system trainer (FM modulation & FM demodulator) /03 : 26
38.FSK modulation /FSK demodulation (Adfron demonstration set) 2+2 /04
39.LCR meter (Digital) /02
40.Phase shift audio oscillator /02
41.Pulse amplitude modulator /03
42.RF Oscillator /01
43.Multi output power supply 0-30V/2A5V/5A+15V/0-5A  : 01
44.Sampling & time division multi & plexing training module 2+1 /03
45.Series & parallel resonance /02
46.Function/sweep generator /01
47.Saw tooth generator /03
48.SSB generator & SSB receiver /01 set
49.225 MHz AM/FM single generator /01
50.Trainers on LC oscillator /03
51.Transistor radio 3 band /transmission & line (3+1) /04
52.Telegraphs and data tester /01
53.PSK module (Phase shift key modulation & demodulation demonstrator /01
54.AM module /01
55.FM module /01
56.PPM module /02
57.Sigma delta module /01
58.PCM /02
59.AM transmitter & receiver /02
60.Transmission line trainer /01
61.FM trainer and receiver /01
62.Spectrum Analyzer with tracking generator /01
63.Power supply (0-30V/1Amp) /07
64.Digital multimeters (RMS) /03
65.Intercom trainer system /05
66.Analog multiplexer /05
67.Demultiplexers /05
68.Frequency to voltage converter /01
69.30 MHz Cathode-ray oscilloscope /05
70.Modern demonstration kit /03 set
71.Universal counter /01
72.60 MHz cathode ray oscilloscope /05
73.Antenna system trainer with controller, UPS &Ink jet printer /01
74.Noise generator (M No. NG-282 /01
75.EPABX DYNAMIC DEMONSTRATOR /01
76.Telephone exchange tutor /01
77.Digital modulation experimental (Digicom) /02 : 28
78.100 MHz dual channel digital storage oscilloscope with interface /01
79.Amplitude modulation & Demodulation /01
80.F.M & demodulation frequency /01
81.Digital standard signal generator 72 MHz /02
82.Amplitude Modulation transmitter kit /01
83.Amplitude Demodulation Receiver Kit /01
84.Pulse Code Modulation Kit /01
85.Pulse Code De -Modulation Kit /01
86.Data Conditioning & Carrier Modulation Transmitter Trainer /02
87.Data Re-Conditioning & Carrier De- Modulation Transmitter Trainer /02
28Microwave Lab.

Microwave education test bench X-band
S.No./Name of Equipment/Qty.
1.Coaxial to wave-guide adapter /02
2.Klystron mount /01
3.EH Tee /02
4.Wave guide horns /05
5.Slotted lines universal probe carriage /03
6.Liquid dielectric cell /01
7.Frequency meters /01

COMPONENTS:
1.XS-601 slotted lines universal probe carriages /01
2.XD detector mount /01
3.XM-400 termination (wave-guide sliding short)/01
XL 400 Wave guide load/01
4.XG-751 coaxial to wave guide adopter /01
5.XM 251Klystron mount tube /01
6.XT-451 EH tuner /01
7.XE-361 E Plane Tee /01
XE-365 H Plane Tee /01
XE-345 EH Tee /01
8.XI-621 Isolator /01
9.Flanges (Cover type) /01
Flanges (Choke type) /01
10.X-Band wave guide /01

ACCESSORIES:
1.XA-503 Attenuator glass vane /01
2.XK-603 Directional coupler 3 db /01
3.Wave-guide support assembly/wave guide stand /18
4.XT-441Variable 3 stube SST with micrometer /01
5.XH -541Wave guide horns /01
6.XT-481Variable short /01
7.XT-541Variable short with micrometer /01
8.XP-5Variable phase shifter /01
9.XB-771 E plane bend /01
XB-775 H plane bend /01
XB-751 171 wave guide twist /01
10.Section of straight wave guide 3" with flages 12" /01
11.XA-520 variable attenuator 0-20 db /01
12.XP-656 board band probe /01
13.XD-460 board band probe detector mount wave guide /01
14.XC-501 solid dielectric cell /01
15.XC-701 liquid dielectric cell /01
16.X-Circulator X335 /01
17.Crystals IN 23 /01
18.Gunn power supply GPS-510 /04
Gunn Power supply /02
19.XF-455 Frequency meter /01
20.Klystrons 2K25 /02
21.KPS-210 klystron power supply /01

EDUCATIONAL ANTENNA ROTATING TEST
BENCH X-BAND CONSISTING OF FOLLOWING
ACESSOLRIES & ASSOCIATED EQUIPMENT
1.Turn table with stand & wave guide support clamp /22
2.GPS-510 (1620) /01
3.XG-11 with cable /01
4.XM-55 with cable /01
5.XA-520 variable attenuator /01
6.Direct reading frequency meter /01
7.MHD 10 db /01
8.XD-460 boar band detector mount with cable /01
9.Coaxial adaptor /02
10.Pyramidal horn /02
Pickup horn /02
Sectional horn /02
11.VSWR meter SW-115 & 520-521 /02

MICRO Education text bench X-Band COMPONENTS;
1.XS-651Slotted lines universal probe cariagde /01
2.XD-451 Detector mount 03
3.XL-400 Wave guide load /04
4.XG-751 Coaxial to wave –guide adopter /02
5.XM-251 Klystron mount (Tube) /03
6.XT-451 EH Tuner /01
7.XT-621 Isolators /01
8.Flanges (Cover type) /04

ACCESSORIES:
1.Directional coupler 3db mode (3+3) /06
2.Variable 3 stub tuner /01
3.XT-541 Variable with micrometer /01
4.Variable short circuit (Moveable short presser) /04
5.Variable short with micrometer (2+1) /03
6.Variable phase shifter /01
7.Sectional of straight wave guide /02
8.Variable attenuator 0-20 db (3+4) /07
9.XP-656 Board band probe (2+3+3) /08:30
10.X Circulator /01
11.Crystals /01

ASSOLCIATED EQUIPMENTS:
1.Frequency meter /01
2.Klystrons model 2K25. /03
3.SKPS-210 klystron power supply /01
4.VSWR meter SW-115 /01
5.Power meter AT-211A /01

MICROWAE EDUCATION TEST BENCH X-BAND
1.Termination wave-guide (3+3) /06
2.Detector mount (1+1) /02
3.Coaxial cable with connectors (6+6) /12
4.Isolators (3+2) /05
5.Wave guide support assemblies (10+10) /20
6.Variable 3 stub tuner slider screw tuner (1+1) /02
7.Variable 3 stub tuner SST with micrometer (1+1) /02
8.Solid dielectric cell (1+1) /02
9.X-Circulator (2+2) /04
10.Klystron power supply (1+1) /02
11.Microwave comm. Training system (X band) /01 set
12.Microwave comm. Training system (KU-Band) /01 set
13.Klystron Tube K 27 (X-Band) /01
14.Gun oscillator model XG-II-453, 454,455,456 /04:31:32

Fiber Optics Lab
S.No./Name of Equipment/Qty.
1.Tunable laser sources with optical connectors model top -150 /01
2.Light wave multimeter (Power meter) /01
3.Optical connector interfaces /01
4.Fiber optic power meter /01
5.Fiber optic power source /01
6.Fiber) optic continuity tester /01
7.Optical fiber training lab /02
8.Splicing kit model SK-1000UV /01
9.Fiber Optics Trainer kit (Falcon make ) /02
10.Fiber optics & digital communication experimental with standard accessories /02
11.Fiber optics power source /01
12.Glass fire optical link transmitter & receiver /01
13.Optical power meter /01
14.Optical fiber kit /02
15.RS-232 (Interface) /02
16.20 meter link + (Plastic Fiber) /02

Embedded System Lab
S.No./Name of Equipment/Qty.
1.Microprocessor Kits 8086 based /03

DSP Lab
S.No./Name of Equipment/Qty.
1.DSP trainer kit –I /01
DSP trainer kit - II /01
2.DSP Starter kit with floating point processor /02

Certificate of Qualifying Examination (Attested copy)

Marks Sheet of Qualifying Examination (Attested copy)

Electronics & Communication Engineering
FACULTY MEMBERS

1.Name:Dr. Vinod Kapoor (kapoor@nitham.ac.in)     
Designation:Professor & Head
Qualification:Ph.D.(Engg.),MBA
Specialization:Optical Fiber Communication
Phone (01972)304620 (O)304621 (R)

2.Name:Dr. (Mrs.) Rajeevan Chandel (rchandel@nitham.ac.in)     
Designation:Associate Professor
Qualification:B.E., M.Tech., Ph.D.
Specialization:VLSI Design, Low Power High Speed Interconnects and Microelectronics
Phone (01972)304624 (O)304535 (R)

3.Name:Sh. Surender Soni (soni@nitham.ac.in)
Designation:Associate Professor
Qualification:B. Tech., M.E.
Specialization:Electronics & Communication
Phone (01972)304630 (O)

4.Name:Sh. Ashok kumar (ashok@nitham.ac.in)     
Designation:Associate Professor
Qualification:B.E., M.E.
Specialization:Electronic Product Design & Technique
Phone (01972)304632 (O)

5.Name:Smt. Gargi Khanna (gargi@nitham.ac.in)     
Designation:Assistant Professor
Qualification:B. Tech., M.E. (Pursuing Ph.D.)
Specialization:Electronics & Communication
Phone (01972)304634(O)304625(R)

6.Name:Sh. Ashwani Kumar (ashwani@nitham.ac.in)     
Designation:Assistant Professor
Qualification:B. Tech., M. Tech.
Specialization:Nano Electronics and VLSI
Phone (01972)304638(O)

7.Name:Sh. Krishan Kumar (krishan_rathod@nitham.ac.in)     
Designation:Assistant Professor
Qualification:B.E., M. Tech
Specialization:Electronics & Communication
Phone (01972)304642(O)
 
8.Name:Sh. Manoranjan Rai Bharti (manoranjan@nitham.ac.in)     
Designation:Assistant Professor
Qualification:B.Tech., M. Tech.
Specialization:Communication & Control Systems
Phone (01972)304646(O)

9.Name:Sh. Gagnesh Kumar (gagnesh@nitham.ac.in)     
Designation:Assistant Professor
Qualification:B.E., M. Tech.
Specialization:Microelectronics
Phone (01972)304648(O)304649(R)

10.Name:Sh. Vinod Kumar (vinodsharma@nitham.ac.in)     
Designation:Assistant Professor
Qualification:B.E., M. Tech.
Specialization:Analog and Digital Electronics
Phone (01972)304644(O)304645(R)

11.Name:Sh. Rakesh Sharma     
Designation:Assistant Professor
 
12.Name:Sh. Philemon Daniel P.
Designation:Assistant Professor                 

 

 

National Institute ational of Technology
Hamirpur (H.P.)-177 005
Registration (First Year)
Session 2010-2011


Total passport size photographs required: 03
Following documents and credentials are required and may please be arranged in
sequence for verification at the time of registration.
1. Provisional Admission Letter issued from CCB (Original)

2. Score Card issued by CBSE indicating the rank in AIEEE-2010 of eligible candidate. (Attested copy)

3. Admit Card of AIEEE-2010 to verify the identity of the candidate (Attested copy)

4. Class 10th (High School) Board Certificate as a proof of date of birth (Attested copy)
Note: Only those candidates whose date of birth falls on or after October 01, 1985 are eligible. However, in the case
of Scheduled Caste (SC), Scheduled Tribe (ST) and Physically Handicapped (PH) candidates, upper age limit is
relaxed by 5 years, i.e. SC, ST and PH candidates who were born on or after October 01, 1980 are eligible.
Date of birth as recorded in the Secondary Education Board/University certificate only will be taken as authentic.

5. Class 10+2 Certificate of Qualifying Examination (Attested copy)

6. Marks Sheet of Qualifying Examination. (Attested copy)

7. Character Certificate, (a report on the behaviour pattern of the applicant from school) (Attested copy)

8. Affidavit for giving reason for study gap (if any) duly sign Oath Commissioner / by Notary Public /
Executive Magistrate. (Original)

9. Certificate of Category (SC/ST/OBC*) (if applicable), issued by the competent Authority (Attested Copy)
SC, ST, OBC and PH candidates will be required to produce original certificate issued by the competent
authority at the time of registration, failing which they will not be considered for admission/ registration.
*OBC candidates will have to satisfy the caste and creamy layer requirements detailed on the following
National Commission for Backward Classes (ncbc) websites:
(a) http://ncbc.nic.in/backward-classes/index.html
(b) http://ncbc.nic.in/html/creamylayer.html
Very Important Note:
• OBC candidates should bring OBC certificate only in the prescribed performa (CCB format).
• OBC Caste belonging to Central List is to be considered vide MHRD, GOI OM No.: 1-1/2005-
U.1.A/847 dated 20th April, 2008 Para VIII, Page 2.

Kind
Attention
• It is compulsory for the candidate to submit category certificate in CCB format.
If the verification reveals that the claim of the candidate to belong to SC/ST/OBC is false,
the admission of such candidate should be cancelled forthwith without assigning any further
reasons and without prejudice to such further action as may be taken under the provisions of the
Indian Penal Code for production of false certificate.
See letter no.:

10. Declaration / Undertaking-for OBC candidates only (if applicable) (Original)

11. Certificate of Physically Handicapped (if applicable) (Attested Copy)
For physically handicapped category a minimum of 40% disability is required and certificate issued on or
after January 1, 2010 will only be acceptable.

12. Medical Fitness Certificate issued by the Medical Officer of NIT dispensary or any Government Civil
hospital. (Original)
For medical certificate, student should know his / her blood group.

13. Migration/Transfer Certificate (Original)

14. An ‘Undertaking’ by the student - Institutional (Original)

15. An ‘Affidavit by the student’ given in Annexure I [Anti-ragging measures] (Original)

16. An ‘Affidavit by parent / guardian’ given in Annexure II [Anti-ragging measures] (Original)
The first year students and their parents are required to submit the above mentioned affidavits at the time of registration.
Also, a student seeking admission to the hostel shall have to submit additional affidavits countersigned by his/her parents/guardians
in the form of Annexure I, II along with his/ her application for hostel accommodation.

17. Passport of the candidates who have passed qualifying examination from outside India for determination of
the state of eligibility. (Attested Copy)

18. Proof of place of examination centre of the final examination from the National Open School for
candidates having Senior Secondary Certificate for determination of the state of eligibility. (Attested Copy)
You will not be allowed to register if you fail to produce original certificates, mark-sheets and other
documents as mentioned above. You must bring one set of attested photocopies of all the above
mentioned documents at the time of registration.
Note 1: If the original certificates are not in Hindi/English, duly certified Hindi/English version/translation of such
certificates will be required.
Note 2: All students are advice to procure latest “Income Certificate of parents” issued by the ‘Drawing and
Disbursing Officer’ of the concerned employee or ‘Revenue Authority’ of the area concerned, well in time for the purposes of various scholarship schemes for the session 2010-2011.


Dr. Sunil
Coordinator (Registration)
NIT-Hamirpur (HP)
01972-304134 (Off), 01972-304135 (Res), 09418156759 (Mobile)

REVISED SCHEME & SYLLABUS of B.TECH.
ELECTRONICS & COMMUNICATION ENGINEERING
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGG.
NATIONAL INSTITUTE OF TECHNOLOGY, HAMIRPUR-177 005 (HP)
DEC, 200 REVISED SCHEME


B.TECH
ELECTRONICS & COMMUNICATION ENGINEERING

Ist Semester (Group-A)
Sr.No. Course no. Subject L T P Hours Credits
1. BS-111 Engg Math-I 3 1 0 4 4
2. BS-104 Engg. Physics 3 1 0 4 4
3. ES-112 Basic Electrical Engg. 3 1 0 4 4
4. TA-102 Computer fundamentals and Programming.3 1 0 4 4
5. HU-101 Communication Skills 2 1 0 3 3
6. ES-101 Engg Mechanics and strength of material,4 2 0 6 5 PRACTICALS
7 WP-101 Workshop-I. 1 0 3 4 3
8. BS-104 (P) Engg Physics 0 0 2 2 1
9. TA-102 (P) Computer fundamentals and Programming Lab 0 0 2 2 1
10. HU-101(P) Communication Skill Lab 0 0 2 2 1
11. ES-112 (P) Basic Electrical Engg. Lab 0 0 2 2 1
Total 37 31

IInd Semester (Group A)
Sr.No.Course no.Subject L T P Hours Credits
1. BS-122 Engg Math-II 3 1 0 4 4
2. BS-103 Engg. Chemistry 3 1 0 4 4
3. BS-105 Material Science 3 1 0 4 4
4. ES-104 Basic Electronics Engg. 3 1 0 4 4
5. ES-103 Basic Thermodynamics 3 1 0 4 4
6. TA-121 Engg. Graphics 1 0 4 5 3 PRACTICALS
7 WP-102 Workshop-II 1 0 3 4 3
8. BS-103(P) Engg Chemistry Lab 0 0 3 3 2
9. BS-105(P) Material Science Lab 0 0 2 2 1
10. ES-104(P) Basic Electronics Lab 0 0 2 2 1
Total 36 30


ECE-104 BASIC ELECTRONICS
L T P 3 1 0
1. SEMICONDUCTORS, DIODES AND DIODE CIRCUITS:
Insulators, semiconductors and metals, Mobility and conductivity, Intrinsic and extrinsic semiconductors and charge densities in semiconductors, current components in semiconductors, continuity equation. PN Junction diode – characteristic and analysis,Types of diodes – Zener diodes,Photodiodes,Light emitting diodes (LED’s), Varactor diodes and tunnel diodes. Rectifiers and filter circuit: Half wave, full wave and Bridge rectifier circuits and their analysis, L, C and Pi filters, Basic regulator supply using zener diode.Working of
Switched Mode Power Supply

2. TRANSISTORS: Construction and characteristics of bipolar junction, transistors
(BJT’s)-Comm. Base, Comm. emitter, Comm. Collector configuration. Transistor at low frequencies – small signal low frequency transistor model (h-parameters). Analysis of transistor amplifier circuit using h-parameters. transistor biasing and bias stabilization: - the operating point, stability factor, analysis of fixed base bias, collector to base bias,Emitter resistance bias circuit and self bias circuit. Bias compensation techniques.

3. FIELD EFFECT TRANSISTOR: construction and characteristics of JFET. JFET biasing circuit JFET amplifier MOSFET construction and characteristics.

4. AMPLIFIERS AND OSCILLATORS: Classification of amplifiers, concept of feed
back, general characteristics of feed back amplifiers, Single stage RC coupled amplifier.Oscillators – Criterion for Oscillation, type of oscillators: Hartley oscillator,Colpitt Oscillator & RC Phase shift oscillator.

5.OPERATIONAL AMPLIFIERS: Introduction to Op-amp, Inverting and non-inverting
configuration, Applications – adder, subtractor, integrator, differentiator and comparator,practical op -amps.

6.ELECTRONIC INSTRUMENTS: Role and importance of general purpose test
instruments, Electronic Millimeter, Cathode Ray Oscilloscope, Measurement of amplitude,frequency and phase using CRO

TEXT BOOKS
1. Electronics Devices and circuits by Millman & Halkias.
2. Electronics devices and circuit theory by Robert Boylestad
REFERENCE BOOKS
1. Electronics Devices and circuits by P.John Paul
2. Electronics Devices and circuits by Y.N.Bapat.
3. Electronics devices and circuit by G.K. Mittal


ECE 104- (P) BASIC ELECTRONICS LAB.L T P 0 0 2
1. Familiarization of electronics component and equipments like C.R.O,Function generator and power supplies etc.

2. To study the V-I characteristics of pn junction diode and determine static resistance and dynamic resistance.

3.To study the characteristics of zener diode and hence determine the dynamic
resistance from the characteristics.

4. Determine the voltage regulation of zener diode stabilizer.

5. To study and plot the wave form of half wave and full wave rectifier with and
without capacitor filter.

6.. To study and plot the input and output characteristics of common emitter transistor.
and calculate its input and output resistance.

7. To study and plot the input and output characteristics of common base transistor.
and calculate its input and output resistance.

8. To study the characteristics of FET(Field effect transistor) and hence calculate
dynamic (rd) , mutual conductance (gm) and amplification factor(μ).

9. To study the frequency response of single stage CE amplifier and hence calculate the band width (3dbBW).


III rd Semester Hours Credits
Sr.No. Course no. Subject L T P Hours Credits
1. BS-237 Differential Equations, Probability and queuing 3 1 0 4 4
2. EE-231 Electrical Circuit Theory 3 1 0 4 4
3. ECE-231 Digital Electronics & Logic Design 3 1 0 4 4
4. ECE-232 Analog Electronic Circuits 3 1 0 4 4
5. ECE-233 Electromagnetic Field Theory 3 0 0 3 3 PRACTICALS
6. EE-231(P) Electrical Circuit Theory Lab 0 0 2 2 1
7. ECE-231(P)Digital Electronics & Logic Design Lab 0 0 2 2 1
8. ECE-232(P)(P) Analog Electronic Circuits Lab 0 0 2 2 1
9. ECA-231 Extra Curricular Activities- I 0 0 2 2 1
Total 27 23

ECE-231 (ID) DIGITAL ELECTRONICS & LOGIC DESIGN - L T P 3 1 0
1. NUMBER SYSTEM & CODES:Binary, Octal, Hexadecimal number systems and their inter-conversion, Binary Arithmetic (Addition,Subtraction, Multiplication and Division), Diminished radix and radix compliments, BCD codes,
8421 code, Excess-3 code, Gray code, error detection and correction, Hamming code.

2. LOGIC GATES, BOOLEAN ALGEBRA & LOGIC FAMILIES:Axiomatic definition of Boolean Algebra, Basic Theorems and properties of Boolean Algebra,Boolean Functions, Canonical and Standard forms, Digital Logic Gates. Various Logic Families like
TTL and ECL etc., working and their characteristics, MOS and CMOS devices.

3. COMBINATIONAL LOGIC DESIGN:The map method, Two, Three, Four and Five variable maps, Sum of products and Product of Sums Simplification,NAND and NOR  implementation, incompletely specified functions,Ex-OR functions,
The tabulation method, Determination of Prime implicants, Selection of Essential Prime implicants,The cube notation, Sharp operation, Iterative Consensus, Generalized Consensus, Minimization of Multiple output switching functions, Determining Prime implicants using Generalized Consensus,Finding a Minimum cover, Breaking cyclic and similar structures.

4. MSI AND PLD COMPONENTS:
Binary adder and subtractor, Multiplexers, Decoders / Demultiplexers, Read Only Memory,Programmable Logic Arrays, Programmable Array Logic. Implementation of Combinatorial Logicusing these devices.

5. INTRODUCTION TO SEQUENTIAL LOGIC:
Introduction, S-R Flip-flops, JK flip-flop, D flip-flop, T flip-flop, master slave flip-flop. Flip-flop
excitation table, Classification of sequential circuits, Registers and A to D and D to Aconverter circuits, design & analysis of synchronous and asynchronous sequential circuits:Counters, Sequence Detector and Sequence Generator.

6.SEMICONDUCTOR MEMORIES: Introduction, Memory organisation, Classification
and characteristics of memories, Sequential memories, ROMs, R/W memories. Content
addressable memories, Programmable logic arrays, Charged-Coupled device memory.

Books Suggested:
1. M. Morris Mano, Digital Design, Prentice Hall of India.
2. Thomas Downs and Mark F Schulz, Logic Design with Pascal, Van Nostrand
Reinhold.
3. Digital principle and applications Malvino and Leach- (TMH)
4. Modern digital systems design Cheung (WPC)


ECE-231 (P) DIGITAL ELECTRONICS LAB L T P 0 0 2
1. To verify the truth table of logic gates realize AND, OR, NOT gates

2. To realize AND, OR gates using diodes and resistors

3. To verify the Boolean algebra function using digital IC gates (consensus theorem)only

4. To realize the function F (A, B, C, D) =(C+D) (A+B) (B+D) using NOR gates only

5. Design a half/full adder circuit using FF for 2 bits

6. Design a half/full sub tractor circuit using FF for 2 bits

7. Use Quine Mclusky method for designing F (A,B,C,D)=Σm(1,3,5,7,9,15)+d  (4,6,12,13)realize it NOR-OR implementation.

8. Design a binary to gray code converter.

9. Design a function using K-map and verify its performance using SOP and POS form

10. Design BCD to seven-segment display using 7447 IC

11. Implement F (A, B, C) =E (1, 3, 4, 5, 6) with a multiplexer.

12. Design a modulus N counter and a ring counter.

13. Design a shift register using flip-flops


ECE-232 ANALOG ELECTRONIC CIRCUITS L T P 3 1 0
1. LOW FREQUENCY TRANSISTOR AMPLIFIER:- Equivalent circuit of BJT using h-parameter for CB, CE and CC & configuration, calculation of transistor parameter for CB, CE & CC using h-parameters,comparison of transistor amplifier configuration.

2. MULTISTAGE AMPLIFIER: General cascaded system, RC coupled amplifier and its frequency
response, merits and demerits, cascode amplifier, Darlington compound configuration, multistage frequency
effect.

3. HIGH FREQUENCY RESPONSE OF TRANSISTOR AMPLIFIER: High frequency model for
CE configuration, approximate CE high frequency model with resistive load, CE short circuit current gain, HF current gain with resistive load.

4. LARGE SIGNAL AMPLIFIER: Analysis and design of class A,B, AB,C amplifiers, push pull amplifiers, transformer less output stages, distortion calculations.

5. TUNED AMPLIFIER: General behavior of tuned amplifiers, resonance-series and parallel resonant circuit, calculations of circuit impedance at resonance. Variation of impedance with frequency, Q-factor of a circuit & coil, Band width of series & parallel resonant circuit, advantages and disadvantages of tuned
amplifiers. Single tuned amplifiers, voltage gain & frequency response of single tuned amplifiers, double tuned amplifiers. Analysis & design of class C amplifiers.

6 FEEDBACK AMPLIFIER: Feedback concept, characteristics of negative and positive feedback. Effect of negative and positive feedback on input impedance, output impedance, gain, and noise and frequency response.

7.OSCILLATORS Classification of Oscillators, frequency and frequency stability of oscillatory circuits, Tuned based Oscillators, Hartley Oscillator, Colpitts Oscillators Clapp Oscillator, Crystal Oscillator,PhaseShift Oscillator, Wein Bridge Oscillator

8. MULTIVIBRATORS Monostable multi-vibrator, astable multi-vibrator and bistable multivibrator and timer applications. Introduction and block diagram of 555 timer and UJT.

TEXT BOOKS
1. Integrated devices & circuits by Millman & Halkias.
2. Electronic Devices & circuit theory by R. Boylestad.
REFERENCE BOOKS
1. Electronic Devices & circuit-II by A.P. Godre & U.A. Bakshi.
2. Electronic Devices & Circuit by G.K.Mithal


ECE-232 (P) ANALOG ELECTRONIC CIRCUITS LAB L T P 0 0 2
1. To study the phase shift oscillator and find its frequency.
2. To study the frequency of a given crystal oscillator and measure the output.
3. To study the two stage RC coupled transistor amplifier.
4. To study voltage gain and frequency response of FET audio power amplifier.
5. To study WEIN-BRIDGE oscillator and determine its frequency.
6. To study power gain and frequency response of a transistor audio amplifier.
7. To study CLASS-B push pull amplifier at audio frequency.
8. To study series and parallel resonance.
9. To study the HARTLEY and COLPITS oscillator.

ECE-233 ELECTROMAGNETIC FIELD THEORY L T P 3 0 0
1. INTRODUCTION: Review of vector analysis, Scalar & vector products, gradient, divergent and curl ofa vector and their physical explanation-Transformation amongst rectangular,cylindrical and spherical co-ordinate system.

2. ELECTROSTATICS: Coulomb's law, electric field intensity from point charges, field due to continuous distribution of charges, gauss’s law, Electric displacement and displacement density potential function, potential field of a point charge, laplace’s and poison’s equations.
3. MAGNETOSTATICS: Magnetic field intensity and magneto motive force, Ampere’s Circuital law,Energy stored, Biot-savart law, vector potential, magnetic dipole.

4. TIME DEPENDENT FIELDS: Ampere's work law in differential vector form, continuity of currents, conduction and displacement current. Maxwell's equations and their interpretations, boundaryconditions. Wave equations, sinusoidal time varying fields, uniform plane wave in dielectric and conductor media, skin effect and depth of penetration, reflection and refraction of plane waves at boundaries for normal and oblique incidence surface impedance.

5. ENERGY FLOW AND POYNTING VECTOR: Pointing theorem, interpretation of ExH.
Simple application, complex pointing vector.

6. TRANSMISSION LINES: Transmission line theory from the circuit concept, properties; constants;transmission line equations; infinite line; reflections in transmission lines; voltage, current and impedance relations-open and short circuit lines; Experimental determination of line constants. Standing wave ratio;
impedance matching, quarter and half wave lines single stub and double stub matching; circle diagram - Smith chart.

7. INTRODUCTION TO WAVE GUIDES Waves between parallel plane; Transverse Electric wave,Transverse magnetic waves; characteristics of TE & TM waves; Transverse Electromagnetic waves; velocity of propagation; Attenuation in parallel plane guides; wave impedance.

BOOKS RECOMMENDED:
1. Electromagnetic waves & radio system by Jorden R.F.
2. Principle and applications of Electromagnetic fields by Ptonsey R and Collin R.P
3. Applied Electromagnetic by Planus M.A.


IV Semester
Sr.No. Course no. Subject L T P Hours Credits
1)CSE-243 Data Structures 3 1 0 4 4
2)HU-202 Engineering Economics 4 0 0 4 4
3 )ECE-241 Electronic measurement and Instrumentation 3 1 0 4 4
4)ECE-242 Communication Theory 3 1 0 4 4
5)ECE-243 Micro Electronics Technology 3 1 0 4 4 PRACTICALS
6)CSE-243 (P) Data Structures Lab 0 0 2 2 1
7)ECE-241 (P) Electronic measurement and Instrumentation Lab 0 0 2 2 1
8)ECA-242 Extra curricular Activities- II 0 0 2 2 1
Total 26 23

* After class work (Any three of the following).per hours per week
(Yoga, NCC, NSS, Sports, Cultural)
ECE-241 ELECTRONIC MEASUREMENT & INSTRUMENTATION L T P 3 1 0
1. INSTRUMENTATION SCHEME & CHARACTERISTICS: Definition,Application and types of measurements, instrument classification, Functionalelements of an instrument, input out put configuration of measuring instruments,Methods of correction for interfering and modifying inputs, standards, calibration,introduction to static characteristics and dynamics characteristics, selection of instruments, loading effects. Dynamic characteristics of measurement systems, Zero order, first order and second order systems & their response.

2. Error analysis: Types of errors, Methods of error analysis, uncertainty analysis,statistical analysis, Gaussian error distribution, chi- square test, correlation coefficient , students T – test , method of least square , curve fitting , graphical analysis , general consideration in data analysis , design of experiment planning

3. DC & AC Measurement: DC measurements, Dc voltmeter, Ammeter ohmmeter,
digital type voltmeter, Ammeter ohmmeter, AC measurement, Ammeter, ohmmeter,
AC voltmeter using rectifier, true RMS voltmeter, Digital VOM meter.

4. TRANSDUCERS: Principles and classification of transducers, guidelines for
selection and application of transducers, basic requirements of transducers. Different
types of transducers, displacement, strain gauge, LVDT, potentiometer, capacitive & inductive, Piezoelectric, temperature, optical, Hall effect transducers. . Measurement of parameter : Measurement of length ,angle, area , temperature , pressure flow,speed force , torque, vibration , level , concentration (conductivity and ph) measurement .

5. Display Devices and Recorders: Telemetry &Remote sensing, GIS (Geographical
information System) , various display devices & Recorder , CRO (basic block
diagram , deflection sensitivity , application : voltage ,current ,frequency and phase angle measurement ) .

6. INDICATING AND RECORDING SYSTEMS: Digital R-L-C meters, digital frequency Meter& Universal Counter. X-Y & X-T recorders, General-purpose Oscilloscopes, Delayed Time Base, Sampling and Digital Storage types.

7. SIGNAL GENERATORS & ANALYZERS: Sweep frequency generator,
frequency synthesized signal generator & function generator; Wave analyzer,
Spectrum analyzer.

Text Books:
1. Electronic Instrumentation& Measurement by WilliamD Cooper & Albert C.
Helfric,PHI Pub.
2. Instrumentation, Measurement& Analysis by K K Chaudhury& R C Nakra,TMH
3 Instrumentation, Measurement& Feedback by Barry Jones,PHI
Reference Books:
1. Instruments& Measurement for Electronic by Clyde N.Herrick


ECE- 241 (P) ELECTRONICS MEASUREMENT & INSTRUMENTATION LAB L T P 0 0 2
1. To measure frequency and phase of a signal from a Lissajous Pattern using CRO.
2. To study the characteristics of LDR, Photo-diode and Phototransistors.
3. To measure a Water Level using Water Level Sensors.
4. To measure a strain using a strain cantilever.
5. To measure a displacement using LVDT Linear variable Differential Transformer
Transducer.
6. To study & determine the characteristics of VDR.
7. To measure a load using Load Cell Transducer.
8. To measure a Temperature using Thermocouple & Thermistor Transducer.
9. To measure a Displacement through Inductive Linear transducer.
10. Measurement of velocity through Velocity Transducer.
11. Measurement of temperature through RTD Transducer.

ECE-242 COMMUNICATION THEORY L T P 3 1 0
1. REPRESENTATION IN FREQUENCY AND TIME DOMAIN
Introduction to information, messages & signals classification of signals. The discrete and continuous spectrum, power spectrum energy density spectrum , Dirac delta functions, sampling theory and approximations.

2. RANDOM SIGNAL THEORY
Discrete probability theory , continuous random variables, statistically independent random variables,probability density functions of sums,transformation density functions with discrete components ergodic process, correlation functions, spectral density and white noise.

3. NOISE
Atmospheric, thermal, shot and partition noise, noise figure and experimental determination of noise figure, shot noise in temperature limited diode and space charge limited diodes, Pulse response and digital noise .

4. TRANSMISSION THROUGH NETWORKS
Networks with random input, auto-correlations, spectral density and probability density input-output relationships, envelope of sine waves plus Gaussian noise, optimum system and non-Linear systems, maximum criterion, equivalent noise bandwidth.

5. BASIC INFORMATION THEORY
Definition of information, units of information, entropy, uncertainty and information rate of communication,redundancy, relation between system capacity and information content of messages, discrete system, discrete noisy channel, continuous systems, comparison of existing system.

TEXT BOOKS
1. Hancock J.C."Elements of Communication Theory"
2. Sharma Sanjay “Signals And Systems”
REFERENCE BOOKS
3. Swartz, "Information & Transmission"
4. Taub & Schilling, "Principals of Communication System".
5. Simon Hay Kin “Communication Systems”
6. M.J.Roberts “Signal & Systems.


ECE-243 MICROELECTRONICS TECHNOLOGY L T P 3 1 0
1. Miniaturization & its impact on characterization of Electronic Systems: Introduction,Trends & Projections in IC Design & Technology. Comparison between semiconductormaterials. Basics of Thick and thin Film Hybrid Technology and monolithic chips.Advantages, limitations & Classification of ICs.

2. Bipolar & MOS Techniques: Flow chart of Bipolar, NMOS and CMOS technologies.
Basics of VLSI Design & Process Simulation, SUPREM.

3. Monolithic Techniques: Silicon Refining for EGS, Single Silicon Wafer Preparation & Crystal Defects, Epitaxial Process, Diffusion: Ficks’ Laws, Oxidation, Ion-Implantation,Photolithography, Basics of Vacuum Deposition & CVD, Etching techniques, Plasma Etching, Metallization and Isolation Techniques.

4. Monolithic Components: Diodes and Transistors, JFETs, MOSFETs, Resistors, Capacitors,MESFETs, Basics of VLSI CMOS technology, Reliability issues in CMOS VLSI, Latching,Electromigration.

5. Assembly Techniques & Packaging of VLSI Devices: Introduction to packaging, Package design considerations, VLSI Assembly techniques, Packaging fabrication technology.

6. Surface Mount Technology (SMT): Through hole technology, Surface Mount Technology,applications & SM Components.

7. Special Techniques for Modern Processes: Self aligned silicides, hallow junction formation, nitride oxides etc. process flows for CMOS and bipolar IC processes.

Text Books
1. S.M. Sze, “ VLSI Technology”, TMH
2. Eshraghian & Pucknell, “ Introduction to VLSI”, PHI
3. S.K. Gandhi, “ VLSI Fabrication Principles”, John Willey & Sons
4. Botkar, “ Integrated Circuits”, Khanna Publishers
5. D.Nagchoudhuri “ Principles of Microelectronics Technology” PHI
Reference Books
1. Carmen Capillo, “Surface Mount Technology”.
2. S.M. Kang & Y. Leblibici, “CMOS Digital Integrated Circuits-Analysis and Design”, TMH.


V Semester
Sr.No. Course no. Subject L T P Hours Credits
1)ECE-351 Microprocessor & its Applications 3 1 0 4 4
2)ECE-352 Communication Systems 4 1 0 5 5
3)ECE-353 Linear Integrated Circuits 3 1 0 4 4
4)OE-351 Open Elective 3 0 0 3 3 PRACTICALS
5)ECE-351(P)Microprocessor & its Applications Lab 0 0 2 2 1
6)ECE-352(P)Communication Systems Lab 0 0 2 2 1
7 ECE-353(P)Linear Integrated Circuits Lab 0 0 2 2 1
Total 22 19


ECE-351 MICROPROCESSOR & ITS APPLICATIONS L T P 3 1 0
Introduction To Microprocessor,History and Evolution, types of microprocessors, 8085 Microprocessor, Architecture, Bus Organization, Registers, ALU, Control section, Instruction set of 8085, Instruction format,Addressing modes, Types of Instructions.Assembly Language Programming and Timing Diagram ,Assembly language programming in 8085, Macros, Labels and Directives, Microprocessor timings,Micro instructions, Instruction cycle, Machine cycles, T states, State transition diagrams, Timing diagram for different machine cycles.Serial I/O, Interrupts and Comparison of Contemporary Microprocessors.Serial I/O using SID, SOD. Interrupts in 8085, RST instructions, Issues in implementing interrupts,Multiple interrupts and priorities, Daisy chaining, Interrupt handling in 8085, Enabling, disabling and masking of interrupts. Brief comparison of contemporary 8-bit microprocessors like Z-80, M68000 with 8085.Data Transfer techniques,Data transfer techniques, Programmed data transfer, Parallel data transfer using 8155. Programmable
parallel ports and handshake input/output, Asynchronous and Synchronous data transfer using 8251A.Programmable interrupt controller 8259A. DMA transfer, cycle stealing and burst mode of DMA,8255, 8257 DMA controller.Microprocessor Interfacing Techniques,Interfacing memory and I/O devices, Addressing memory, interfacing static RAMs, Interfacing and refreshing dynamic RAMs, Interfacing a keyboard, Interfacing LED and seven segment displays,Interfacing a printer, Interfacing A/D converters, D/A converters.Architecture of typical 16 bit microprocessors (Intel 8086)Memory address space and data organization - Segment registers and memory segmentation - Generating a memory address - I/O address space - Addressing modes - Comparison of 8086 and 8088 - Basic 8086/8088 configuration - Minimum mode - Maximum mode - System timing.Introduction to 80186/188, 286, 386 & 486 with Block diagram, features & application.

Books Recommended: -
1. R.S. GAONKAR, Microprocessor Architecture, Programming and applications with the 8085/8080A, Wiley Eastern Ltd.
2. A.H. MUHOPADHYAY, Microprocessor Based Laboratory Experiments and Projects, Wheeler Publishing, 1997.
3. YU-Cheng Liu & Glenn A Gibson, Microprocessor System, Architecture Programming & Design.
REFERENCE BOOKS
1. D.V.HALL, Microprocessors and Digital Systems, McGraw Hill
2. INTEL 8086/88, 80186, 286, 386, 486, Pentium Pro & Pentium IV- By Berry.B.Bray.


ECE-351 (P) MICROPROCESSOR & ITS APPLICATIONS LAB L T P 0 0 2
1.Simple programs for sorting a list of numbers in ascending and descending order.
2. Sorting a list without destroying the original list.
3. Code conversion - Binary to Gray/Gray to Binary.
4. Program for addition of BCD numbers.
5. Program for multiplication of 8-bit numbers .
6. Interface an LED array and 7-segment display through 8255 and display a specified bit pattern/character sequence at an interval of 2 seconds.
7 Interface the given microprocessor kit to a personal computer through R.S-232C. The band rate is specified. Verify data transfer in both directions ( P - PC and PC - P)
8 Assembly language programming of 8086


ECE-352 COMMUNICATION SYSTEMS L T P 4 1 0
1. MODULATION TECHNIQUES: Various frequency bands used for communication ,types of communication and need of modulation. Introduction to AM, FM, PM, Frequency spectrum of AM Waves,Representations of AM, Power relation in AM waves, Need and description of SSB, suppression of carrier,suppression of unwanted side bands, Independent side band system, vestigial side band system, Mathematical
representation of FM, frequency spectrum of the FM waves, Phase modulation, comparison between analog and digital modulation, Wide band and narrow band FM, Sampling theorem, frequency division multiplexing and
time division multiplexing.

2. AM TRANSMITTERS AND RECEIVERS: AM TRANSMITTERS: Generation of AM, low
level and high level modulation, comparison of levels, AM transmitter block diagram, collector class C modulator, Base modulator, Transistor Vander Bil modulator, DSB S/C modulator.AM RECEIVER: Tuned radio frequency (TRF) receiver. Superheteterodyne receiver, RF section and characteristics, mixers, frequency changing and tracking, IF rejection and IF amplifiers. Detection and
automatic gain control (AGC), AM receiver characteristics.

3. FM TRANSMITTERS AND RECEIVERS: FM TRANSMITTERS: Basic requirements and
generation of FM, FM Modulation methods: Direct methods, variable capacitor modulator, varactor diode modulator, FET reactance modulator, Transistor reactance modulator, Pre-emphasis, direct FM modulator, AFC in reactance modulators, disadvantages of direct method, Indirect modulators, RC phase shift modulator,Armstrong FM systems.FM RECIVERS: Limiters, single and double tuned demodulator, balanced slope detector, foster seely or phase
discriminator, de-emphasis, ratio detector, block diagram of FM receiver, RF amplifiers, FM receiver characteristics.

4. SSB TRANSMITTERS AND RECEIVERS: Generator of SSB, balanced modulator circuit, Filter method, phase shift method, Third method,Phase cancellation method. Demodulation of SSB, product demodulator, Detection with diode balanced modulator
Pilot carrier receiver, suppressed carrier receiver.

5.BASIC CONCEPTS OF DIGITAL MODULATION TECHNIQUES:Binary phase shift keying, differential phase shift keying, differential encoded PSK, quadrate PSK, Quadrate
Amplitude shift keying (QASK) Binary frequency shift keying.

6. RADIO WAVE PROPAGATION- Basic ideas of ground wave, propagation, reflection at the surface of a finitely conducting plane, earth (on ground), space and surface waves, tilt of the surface wave, troposphere waves-reflection, refraction, duct propagation. The ionosphere, formation of the various layers, their effective characteristics, reflection and refraction of waves by ionosphere, virtual
height, maximum frequency, skip distance, regular and irregular variation of ionosphere, ordinary and extraordinary waves.

TEXT BOOKS
1. Electronic communication Systems by George Kennedy.
2. Principle of Communication Systems by Taub and Schilling.
3. Electronic Communication System by Tomasi.
4. Electronic communication Systems by Dennis Roddy and John Coolen
5. F.C. Jordan & B.C.Balmann, "Electromagnetic waves & radiating System", P.H.I.


ECE-352 (P) COMMUNICATION SYSTEMS LAB L T P 0 0 2
1 To study Amplitude modulation using a transistor and determine depth of modulation.
2 To study Amplitude demodulation .
3 To study Frequency modulation using voltage controlled oscillator,
4 Generation of DSB-SC signal using balanced modulator, single side band signal,
5 Study of phase lock loop and detection of FM Signal using PLL,
6 Measurement of noise figure using a noise generator,
7 Study of super heterodyne AM receiver and measurement of sensitivity, selectivity & fidelity.
8.Measurement of sensitivity, selectivity and fidelity of radio receivers.
9.Study of PCM and analysis of sampling theorem.


ECE-353 LINEAR INTEGRATED CIRCUIT L T P 3 1 0
1. DIFFERENTIAL AND CASCODE AMPLIFIERS: Emitter coupled differential amplifiers & its circuit configurations, FET differential amplifier, Differential amplifier with swamping resistor, constant current bias & current mirror. Cascade differential amplifier stages. Level translator. Cascade configuration.

2. INTRODUCTION TO OPERATIONAL AMPLIFIERS: The basic operational amplifier & its schematic symbol, Block diagram representation of OP-AMP, Power supply requirements of an OP-AMP, Evolution of OP-AMP., Specification of a typical OP-AMP (741).

3. THE PRACTICAL OP-AMP: Input offset voltage, input bias current, input offset current. total output offset voltage, thermal drift, error voltage, variation of OP-AMP parameter with temperature & supply voltage.Supply voltage rejection ration (SVRR), CMRR-Measurement of OP-AMP parameters.

4. FREQUENCY RESPONSE OF AN OP-AMP: Frequency response compensator networks. Frequency response of internally compensated OP-AMP & non-compensated OP-AMP. High frequency OP-AMP equivalent circuit, open loop voltage gain as a function of frequency. Slew rate, causes of slew rates and its effects in application.

5. OPERATIONAL AMPLIFIER CONFIGURATIONS & LINEAR APPLICATION:Open loop OP-AMP configurations- The differential amplifier, inverting amplifier, non-inverting amplifier,negative feed back configurations - inverting and non inverting amplifiers, voltage followers & high input impedance configuration, differential amplifiers, closed loop frequency response & circuit stability, single supply operation of OP-AMP, summing, scaling and averaging amplifier, voltage to current & current to voltage converters, integrators & differentiators, logarithmic & anti logarithmic amplifiers

6. ACTIVE FILTERS & OSCILLATORS: Advantages of active filters, classification of filters, response characteristics of butter worth, chebyshev, causal filters, first order and second order butter worth filters- low pass and high pass types. Band pass & band reject filters. Oscillator principles, types of oscillators - phase shift,wein bridge & quadrature. square wave, triangular wave and saw tooth wave generators, voltage controlled oscillator.

7. COMPARATORS & CONVERTERS: Basic comparator & its characteristics, zero crossing detector,voltage limiters, clippers & clampers, small signal half wave & full wave rectifiers, absolute value detectors,sample and hold circuit.

TEXT BOOKS
1. OP-AMP and linear integrated circuits 2nd edition, PLHI by Ramakant A. Gayakwad.
2. Design with operation amplifiers and Analog Integrated circuits by Sergei Franco.
3. Integrated Electronics: Analog and Digital circuits & system by Millman & Halkias.
4. Linear Integrated Circuits by D.R.Chaudhary (WEL)


ECE-353 (P) LINEAR INTEGRATED CIRCUIT LAB L T P 0 0 2
1. To demonstrate the relationship between input and output for the inverting and noninverting configuration of the Op-Amp 741.
2. To verify the function of op-amp as a summer and as a difference amplifier.
3. To perform the mathematical operation of integration using basic and practical
circuits of op-amp’s.
4. To perform the mathematical operation of differentiation using basic and practical circuits of op-amp’s.
5. To study half wave and full wave rectifier circuits using op-amp’s.
6. To design a second order butter worth low pass filter for cut of frequency of 2 KHz and determining its frequency response.
7. To study the frequency response of a high pass filter(second order).
8. To study fourth order low pass filter and high pass filter.
9. To plot the frequency response of the band pass filter for a specified frequency range.
10.To design a square wave and triangular wave generator using Op-amp’s.
11.To design Wein bridge oscillator using Op-Amp for oscillating frequency 1 KHz.


VI Semester
Sr. No. Course no. Subject L T P Hours Credits
1 HU-301 Dynamics of Behavioral Science 3 0 0 3 3
2 EE-361 Control Engineering 3 1 0 4 4
3 ECE-361 Antenna & Radar Engineering 3 1 0 4 4
4 ECE-362 Power Electronics 3 1 0 4 4 PRACTICALS
5 ECE-366 Minor Project 0 0 3 3 2
6 EE-361 (P) Control Engineering Lab 0 0 2 2 1
7 ECE- 362(P) Power Electronics Lab 0 0 2 2 1
Total 22 19

ECE-361 ANTENNA AND RADAR ENGINEERING L T P 3 1 0
1.RADIATION: Retarded potentials, radiation from an oscillation dipole in free space, induction and radiation fields. Radiated power from a current element, radiation resistance, short antennas,radiation from a quarter wave monopole and half wave dipole.

2.ANTENNA PARAMETERS -Basic ideas of reciprocity properties of antennas, Radiation patterns, directional properties of dipole antennas. Antenna gain, Antenna aperture and its relation to gain, antenna terminal impedance, self and mutual impedance. Elementary ideas about self and mutual impedance, front to back ratio, antenna beam width and bandwidth, antenna efficiency,antenna beam area, polarization, Antenna temperature and signal to noise ratio.

3. ANTENNA ARRAYS –Various forms of arrays, Arrays of two point sources, linear arrays of n-point sources, pattern multiplication Arrays of equal amplitude and spacing (Broadside and end fire arrays), array factor, directivity and beam width, Binomial array.

4. PRACTICAL ANTENNAS- Types of antennas, (a) VLF and LF antennas(Hertz and Marconi antennas),effects of antenna height and effect of ground on performance of antenna , medium frequency antenna and Rhombic antennas, Loop antennas , receiving antenna and radio direction finders.
(b) VHF , UHF and SHF antennas: Folded dipole antennas, Yagi-uda antenna, slotted and horn antennas, helical antennas, frequency independent antennas , turnstile antenna.

5. RADAR : Radar Block diagram and operation, radar frequencies, application of radar.RADAR EQUATION: Prediction of range, minimum detectable signal, receiver noise,transmitter power, pulse repetition frequency and range ambiguity, antenna parameters, system losses and propagation effects.

6. RADAR SYSTEM: Doppler effect and its application to CW radar, FM CW Radar altimeters,MTI and pulse doper radar, tracking radar.

7. RECEIVERS: Noise figure, radar mixers, Duplexers, A scope and PPI display, Matched Filters,Modulators and Pulse Forming Networks.

BOOKS RECOMMENDED:
Text Book
1. J. D. Kraus, "Antennas, "McGraw Hill.
2. Antennas Theory and Design, C.A. Balanis, Raw & Harper.
3. Digital Satellite Communications (Second Edition) Tri, T.Ha. 1990.
4. Introduction to Radar Systems, by Merill. I Skolnik.
Reference Book
1. F.C. Jordan & B.C.Balmann, "Electromagnetic waves & radiating System", P.H.I.
2. Antennas and Radio wave propagation, Collins, R.E., McGraw Hill.


ECE-362 POWER ELECTRONICS L T P 3 1 0
1. Semiconductor Power Switching Devices: Thyristor –Static& Dynamic Characteristics,Turn-on & Turn-off methods& Circuits. Rating & Protection of SCR’s. Series & Parallel Operation of Thriystors & Triggering Circuits. Characteristics of Triac & Diac.Introduction to new Power Semiconductor Devices-Power Diode, Power Transistor,IGBT,GTO & Power MOSFET.

2. Phase Controlled Converters: Principle of Phase Control-Single-Phase Half wave
circuit with different types of loads, Single-Phase & Three-Phase Semi-Converter
Semi-Converter& Full-Converter. Bridge Circuit with line commutation-Continuous
& discontinuous conduction. Single-Phase & Three-Phase Full Converters, Single-
Phase & Three-Phase Dual Converters .

3. DC Choppers: Principle of Chopper Operation &Control Strategies. Step-Up &
Step-Down Choppers. Types of Choppers. Steady State Time domain analysis with
R,L & E-type loads. Voltage, Current & Load Commutated Choppers.

4. Inverters: Single-Phase VSI, Half-Bridge & Full-Bridge Inverters & their steady state analysis. Modified McMurray half-bridge Inverter, Series Inverters, Threephase bridge Inverter with 180° & 120º modes. Single-Phase PWM Inverters.
Current Source Inverters.
5.DC Motor Speed Control: Basic Machine Equations. Breaking Modes. Schemes
for DC Motor Speed Control. Single-Phase Separately Excited Drives. Breaking
Operation of Rectifier. Control of Separately Excited Motor. Single-Phase Series
Motor Drives. DC Chopper Drives. Closed Loop Control of DC Drives.

6. AC Drives: Induction Motor Characteristics &Principle of Operation. Speed Control of Induction Motor: Stator Voltage Control, Variable Frequency Control, Rotor Resistance Control, Slip Power Recovery Scheme. Synchronous Drives.

Text Books:
1. Power Electronics by M H Rashid,PHI(1996)
2. Power Electronics by P S Bhimbra, Khanna Pub.
Reference Books:
1. Power Electronics by P C Sen,TMH Edn.
2. Power Electronics by C W Lander, McGraw Hill Book Company


ECE-362 (P) POWER ELECTRONICS LAB L T P 0 0 2
1. To study the characteristics and application of various power devices.
2. To verify the V-I characteristics of SRC and also determine the latching, holding current.
3. To verify the V-I characteristics of UJT also calculate peak voltage (Vp), peak current (Ip), valley point current (Iv).
4. To study and design IC-723 based voltage regulator.
5. To observe the wave form of single phase controlled half wave and full wave rectifier
6. AC phase controlled using triac.
7. To compare the performance of Morgan chopper and jones chopper.
8. To control the speed of D motor using open loop control concept.
9. To control the speed of DC motor using close loop control concept.
10. To control the speed of DC motor using TRAIC.
11. To observe the waveform that IC-555 acted as monostable multivibrator.
To observe the waveform that IC-555 acted as astable multivibrator

VII Semester
Sr.No. Course no. Subject L T P Hours Credits
1. ECE- 471 VLSI Design Techniques 3 1 0 4 4
2. ECE- 472 Digital Signal Processing 3 1 0 4 4
3. ECE- 473 Digital Communication 3 0 0 3 3
4. ECE-474 Department Elective-I 3 0 0 3 3 PRACTICALS
5. ECE-477 Major Project-I 0 0 6 6 3
6. ECE- 476 Industrial Training Viva 0 0 0 0 2
7. ECE-478 Seminar 0 0 3 3 2
8. ECE-471(P) VLSI Design Lab 0 0 2 2 1
9. ECE-472(P)Digital Signal Processing Lab 0 0 2 2 1
10. ECE-473(P)Digital Communication Lab 0 0 2 2 1
Total 29 24

ECE-471 VLSI DESIGN TECHNIQUES L T P 3 1 0
1. Introduction, Trends & Projections in VLSI Circuits, Flow diagram of VLSI Circuit Design and VLSI Design issues.

2. MOSFET fundamentals, Enhancement Mode MOSFETs, Depletion Mode
MOSFETs, Weak & strong Inversion Conditions, Threshold Voltage Concept in
MOSFETs, IV Characteristics of a MOSFET, Limitations in IV Model and MOSFET
Parasitics.

3. Basic VLSI Design Styles-NMOS, CMOS Process flow ; Noise Margin; Inverter
Threshold Voltage; NMOS Inverter design and characteristics; CMOS Inverter
Design and Properties; Inverter as an Amplifier and Differential Amplifier, Delay ,Power Dissipation and scaling in CMOS circuits.

4. Parallel & Series Equivalent circuits; Static CMOS Circuit Design: case study; VLSI Interconnects.

5. Stick Diagrams; Physical Design Rules; Layout Designing; Euler’s Rule for VLSI
Physical Design.

6. High Speed Dynamic CMOS logic families; Precharge-Evaluate logic; Dynamic
CMOS logic circuits, cascading, charge redistribution and clocking strategies.

7. Memory / Regular Structure Design; ROM Design, SRAM Design

8. SPICE models.

Text Books
1. S.M. Kang & Y. Leblibici, “CMOS Digital Integrated Circuits-Analysis & Design”,TMH, Ed. 2003.
2. B.G. Streetman & S. Banerjee, “Solid State Electronic Devices”, PHI.
3. K. Eshraghian & Pucknell, “Introduction to VLSI”, PHI.
Reference Books
4 J.M. Rabaey, “Digital Integrated Circuits-A Design Perspective”, PHI.
5. B. Razavi, “Design of Analog CMOS Integrated Circuits”, TMH.
6. N.H.E. Weste & K. Eshraghian, “Principles of CMOS VLSI Design: A System
Perspective”, McGraw Hill Pub.


ECE-471 (P) VLSI Design Lab L T P 0 0 2
Experiment of the lab will be based on:
Circuit Design using SPICE, VHDL/ Verilog, Design using FPGA
ECE-472 DIGITAL SIGNAL PROCESSING L T P 3 1 0
I. Introduction to Digital Signal Processing:
Basic Elements of Digital Signal Processing Systems, Classification of Signals, The concept of frequency in Continuous time and Discrete time domain, Discrete-time Signals and Systems, Analysis of Discrete-Time, Linear Shift-Invariant Systems-Linearity, Causality and Stability criterion. Discrete-time Systems described Difference Equation, Correlation of Discrete-Time Signals.

II The Z-Transform:
Introduction to Z-Transform & Inverse Z-Transform-Transform
Theorems & Properties. Relation to Fourier Transform. Rational Z-Transform & System Function ,One-sided Z Transform and solution of Difference Equations. Stability-Time-Domain& Frequency Domain Analysis

III Frequency Analysis of Signals &Systems:
Frequency Analysis of Discrete Time Signals-Fourier Series for Discrete-Time Periodic Signals, Power Density Spectrum of Periodic Signals, The Fourier Transform of Discrete-Time Aperiodic Signals, Energy Density Spectrum of Signals, Sampling Theorem and reconstruction of Continuous-Time Signals from Discrete-Time Sequences.

IV The Discrete-Time Fourier Transform:
Frequency Domain Sampling and DFT. Properties of DFT. Linear convolution using DFT.Efficient computation of the DFT- Fast Fourier Transform Algorithms.-Efficient computation of DFT of two real Sequences. Efficient computation of the DFT of a 2-N point Real Sequences

V Digital Filter Design Techniques:
General Consideration. Design of IIR filters-IIR Filter Design by Impulse Invariance & Bilinear Transformation, Design of Linear Phase FIR Filters-Design of FIR filter usingWindows and by Frequency Sampling Method, Frequency Transformation in the Analog Domain and Digital Domain.

VI. Realization & Implementation of Discrete-Time Systems-
Structures for the realization of Discrete-Time Systems-Structures for FIR & IIR Systems.State-Space System Analysis & Structures, Implementation of Digital Filters.

Text Books
1. Digital Signal Processing-Principles, Algorithms, and Applications by John G.
Proakis & Dimitris G. Monolakis, PHI
2. Digital Signal Processing by Sanjit K Mitra
Reference Books
1. Digital Signal Processing by Alan V. Oppenheim & Ronald W. Schafer
2. Theory & Application of Digital Signal Processing by Rabiner & Gold


ECE-472 (P) DIGITAL SIGNAL PROCESSING LAB L T P 0 0 2
• Study of Floating Point Digital Signal Processor & Fixed Point Digital Signal
Processor
• Realisation of Circular & Linear Convolution and Correlation of two sequences.
• Computation of DFT&IDFT of a given Sequence using DSP Processors
• Radix-2 & Radix-4 algorithm FFT Calculation using DSP Processors
• FIR & IIR Filter Implementation using the DSP Processors.
• Basics of MATLAB-Realisation of Unit Impulse, Unit Step & Unit Ramp signals
• Linear & Circular Convolution of two Sequences, Correlation of two sequences
• DFT&IDFT Computation
• Radix-2&Radix-4 algorithm FFT Calculation
• Generation of Gaussian Distributed Numbers


ECE-473 DIGITAL COMMUNICATION L T P 3 0 0
1. ELEMENTS OF DIGITAL COMMUNICATION:
Model of digital communication systems, Noisy communications channels, channel capacity of a discrete memory less channel, Hartley Shanon Law , Bandwidth –S/N tradeoff, pulse Amplitude modulation,pulse code modulation (PCM),Delta Modulation, adaptive delta modulation

2. SAMPLING THEORY : Sampling Theorem Natural sampling, Flat top sampling, signal recovery & holding, Quantization of signal, Quantization error

3. DIGITAL CARRIER MODULATION TRANSMISSION AND RECEPTION
Introduction, Amplitude Shift Keying (ASK), ASK Spectrum, ASK Modulator, Coherent ASK Detector, Noncoherent ASK Detector, Frequency Shift Keying (FSK), Bandwidth and Frequency Spectrum of FSK, Noncoherent FSK Detector, Coherent FSK Detector, FSK Detection Using PLL, Binary Phase Shift Keying, Binary PSK Spectrum, Coherent PSK Detection, Quadrature Phase Shift Keying (QPSK), QPSK Demodulator,
Differential PSK.

4. DATA TRANSMISSION:
A base band signal receiver, probability of error, the optimum filter, white noise-the matched filter, probability of error of the matched filter, coherent reception: correlation, application of coherent reception in PSK and FSK. Correlation receiver for QPSK.

5. NOISE IN PULSE CODE & DELTA MODULATION SYSTEMS:
PCM transmission, calculation of quantization noise, the O/P signal power, the effect of thermal noise, O/P signal to noise ratio in PCM, Delta Modulation, Quantization noise in delta modulation, the O/P signal to quantization noise ratio in delta modulation, O/P signal to noise ratio in delta modulation.

6. INFORMATION CODING AND DECODING:
Coding for error detection and correction, Block coding – coding, anticoding, Hadamard code, Hamming code,Cyclic Codes, Convolution coding and decoding, Viterbi algorithm, Shannon Fano and Hoffman Codes.

BOOKS RECOMMENDED:
1. Principles of communication systems by Taub & Schilling
2. Computer Communication and Networks by John R.Freer,1990.
(Affiliated East West Press).
3. Communication System – Simon Haykin.


ECE-473(P) DIGITAL COMMUNICATION LAB L T P 0 0 2
1. To study and observe waveform of FSK Modulation and demodulation.
2. To study the characteristics of second order Band pass filter
3. To study sampling and time division Multiplexing and demultiplexing.
4. To study the characteristics of gaussion noise and to measure its spectrum height in
5. the frequency band over which its spectral density is flat.
6. To study delta modulation and demodulation.
7. To observe the time domain and spectral Characteristics of the waveform of
BPSK, QPSK and offset-QPSK, to build modulators for them and measure their BER
Performance with ideal receivers.
8. To implement the optimal receiver for 4- PAM and 16 QAM modulated signals, study the spectral characteristics of PAM , QAM and measure their BER performance.


VIII Semester Sr.No.Course no. Subject L T P Hours Credits
1.ECE-481 Microwave Devices & Systems 3 0 0 3 3
2.ECE-482 Optical fiber communication 3 1 0 4 4
3.ECE-483 Embedded System Design 3 1 0 4 4
4.ECE-484 D E II 3 0 0 3 3 PRACTICALS
5.ECE-487 Major Project-II 0 0 6 6 3
6.ECE-481(P)Microwave Devices & Systems Lab 0 0 2 2 1
7.ECE-482(P)Optical fiber communication Lab 0 0 2 2 1
8.ECE-483(P)Embedded Systems Lab 0 0 2 2 1
Total 26 20


ECE-481 MICROWAVE DEVICES AND SYSTEMS L T P 3 0 0
1. Introduction to microwave and applications: - Limitations of the conventional tubes, frequency allocations and frequency plans, letter designation for microwave bands.
2. Microwave generators and amplifiers: - Klystrons, Two and multi cavity klystron, reflex klystron amplifiers and oscillators, backward wave oscillators, Magnetrons, the MASER (Microwave Amplification By Stimulated Emission of Radiations).
3. Microwave solid-state devices: - Gunn diode and its modes of operation, Avalanche diode, Tunnel diode, Schottky diode, Backward diode, Varactor diodes, Step recovery diode, PIN diode, their principles,operation and applications.
4. Microwave passive devices and other component: - Rectangular wave guide of its mathematical analysis, circular wave guide, modes of propagation, dominant modes, cut off wave length scattering matrix of microwave junction, properties of scattering matrix of loss-less junction, cavity resonators, E-plane tee, Hplane
tee, magic tee, phase shifters, attenuators, directional couplers, ferrite devices, Faraday rotation,gyrator, isolator, circulators, detector.
5. Block diagram of microwave transmitter and receiver, multiplexing equipment, microwave link
6. Microwave Measurements: - Measurement of standing wave ratio, Measurement of frequency,Measurement of power, phase shift, Antenna pattern measurement.
7. Strip Line: -Introduction, Micro strip lines, parallel strip lines, coplanar strip lines, shielded strip lines,characteristic impedance of micro strip lines, losses in micro strip lines, quality factor of micro strip lines.

BOOKS RECOMMENDED:
Text Books
1. Foundations for microwave engineering, international student edition,R.E. Collins
2. Microwave devices and circuits ‘3rd edition’ Samuel Y Liao.
3. Microwave Engineering by A Dass and S K Dass
4. Microwave by K.C.Gupta
5. Microwave engineering Rajeswari Chatterjee


ECE-481 (P) MICROWAVE DEVICES AND SYSTEMS LAB L T P 0 0 2
1. To study the microwave components, sources and different types of loads.
2. To study the characteristics of reflex klystron and determine it’s electronic and mechanical tuning range.
3. To study the characteristics of gunn diode.
4. To measure the coupling and directivity of a directional coupler.
5. To study various tees i.e.: - E-plane, H-plane and magic tees.
6. To measure VSWR of an unknown load and determine its impedance .
7. To measure large standing wave ratio.
8. To determine the gain of a pyramidal horn and plot its beam pattern and find its lobe width.
9. To match the impedance of maximum power transfer using a slide screw tuner.
10. To measure VSWR, insertion loss and attenuation of fixed and variable attenuator.
11. To measure the frequency of microwave source and demonstrate the relation ship among the frequency, free space wavelength and guide wavelength.
12. To determine the insertion loss, isolation of a three port circulator.


ECE-482 OPTICAL FIBER COMMUNICATION L T P 3 1 0
1. OVERVIEW:The Electromagnetic Spectrum, Properties of Light, Dual Nature of Light Concept of a photon, Wave Mode3l, Characteristics of light waves. Concepts of information, general communication systems, evolution of Basic Fiber Optic Communication System,Benefits and disadvantages of Fiber Optics. Transmission Windows. Transmission Through Optical Fiber, The Laws of Reflection and Refraction, Light rays and light waves, Reflection of light from optical surfaces, Refraction of light from optical interfaces, The Numerical Aperture
(NA), The Optical Fiber, Types of Fiber.
2. LOSSES IN OPTICAL FIBRE :Attenuation, Material absorption losses, linear and non linear scattering losses, fiber bend loss,dispersion viz inter modal dispersion and intra modal dispersion, overall fiber dispersion and
polarization, Dispersion shifted and dispersion flattened fibers, attenuation and dispersion limits in fibers, Kerr nonlinearity, self phase modulation, combined effect of dispersion and self phase modulation.
3. FIBRE MATERIAL, COUPLERS AND CONNECTORSPreparation of optical fiber: liquid-phase techniques, vapor phase deposition techniques. Connector Principles, Fiber End Preparation, splices, connectors.
4. OPTICAL SOURCES AND DETECTORS:Sources: Basic principle of surface emitter LED and edge emitter LED- material used, structure,internal quantum efficiency and characteristics, LASER Diode - material used, structure, internal quantum efficiency and characteristics, working Principle and characteristics of Distributed feedback (DFB) laser. Detectors: PIN photodiode - material used, working principle & characteristics,
Avalanche Photodiode: - material used, working principle and characteristics
5. OPTICAL FIBER SENSORS:Intensity modulated sensor - general features, intensity modulation through light interruption, shutter multimode fiber sensors and reflective fiber optic sensors.
6. ADVANCED TOPICS : Optical TDM, SCM, WDM and Hybrid multiplexing methods.
Fiber Optic Networks, Transreceivers for Fiber-Optic Networks, Semiconductor Optical Amplifiers, Erbium Doped Fiber Amplifiers (EDFAs), Elements of Architecture of Fiber-Optic Networks.

Text Books
1. Optical Fiber Communication Principles & Practice by John M.Senior,PHI Publication
2. Optical Communication Systems by John Gowar, PHI Pubnlications.
Reference Books
1. Optical Fiber Communication by Gerd Keiser, Mc Graw Hill International Publications.
2. Fundamentals of Fibre Optics in Telecommunication and sensor systmes by Bishnu P.Pal,New Age International (P) Ltd.


ECE-482 (P) OPTICAL FIBER COMMUNICATION LAB L T P 0 0 2
1. To setting up fiber optic analog link.
2. Study of losses in optical fiber.
3. Study of numerical aperture of optical fiber.
4. Study of time division multiplexing (digital).
5. Study of framing in time division multiplexing.
6. Study of Manchester coding and decoding.
7. Study of voice coding and codec chip.
8. Study of characteristics of fiber optic LED’s and photo detector.

ECE-483 Embedded System Design L T P 3 0 0
Introduction to an embedded systems design,Introduction to Embedded system, Role of processor selection in Embedded System(Microprocessor V/s Micro-controller), Embedded System Project Management, Design cycle in the development phase for an embedded system, Use of target system or its emulator and In-circuit emulator, Use of software tools for development of an ES.RTOS & its overview.Real Time Operating System: Task and Task States, tasks and data, Message queues- Timer.Function-Events-Memory Management, Interrupt Routines in an RTOS environment,basic designs Using RTOS.Microcontroller,8051 Microcontroller: Architecture, basic assembly language programming concepts,Instruction set, Addressing Modes, Logical Operation, Arithmetic Operations, Subroutine,
Interrupt handling, Timing subroutines, Serial data transmission, Serial data communication,PIC microcontroller: Architecture, Internal registers and timer/Clock initialization,Interrupus.Introduction to AVR8515 microcontroller.
Embedded system development.Interfacing of external Memory. Interfacing Analog and digital blocks, interfacing of Different peripheral devices such as LED, LCD, Graphical LCD, Switches, Relay, stepper motors, ADC, DAC and various sensors. Introduction to-assembler, compiler, cross compilers and Integrated Development Environment (IDE).Networks for Embedded Systems
The I2C Bus, The CAN bus, SHARC link Ports, Ethernet, Introduction to Bluetooth:
Specification, Core Protocol,IEEE 1149.1 (JTAG) Testability: Boundary Scan Architecture

TEXT BOOKS
1. The Art of Programming Embedded Systems, Jack G. Ganssle, Academic press.
2. Intelligent Embedded Systems, Louis L. Odette, Addison-Wesley, 1991
3. J. Staunstrup and W. Wolf, editors, Hardware/Software Co-Design: Principles and Practice,Kluwer Academic Publishers, 1997.
References
1. Rajkamal, “Microcontrollers: Architecture, Programming, Interfacing and System
Design”, Pearson Education.
2. The 8051 Microcontroller by K.J. Ayala, Penram International
3. J B Peatman, Design with PIC Microcontrollers, Prentice Hall
4. Programming and Customizing the AVR Microcontroller by Dhananjay Gadre,MGH
5. J B Peatman, Design with PIC Microcontrollers, Prentice Hall


ECE-483 (P) EMBEDDED SYSTEMS LAB L T P 0 0 2
1. Study A/D Converter and Analysis of External input using A/D converter and Display the result on LCD.
2. Study D/A Converter, Waveform generation i.e. ramp wave, step wave, square wave,triangular wave.
3. Display the status of 4-bit Keyboard switches on LCD and interface the LCD with micro-controller to display data or character string.
4. Study the 7-segments Display, Digital clock, counter (0-9) and (0-99).
5. Study the L.E.Ds, check the status of any ports, add two numbers and display the result on L.E.Ds, multiply the two numbers and display the result on L.E.Ds
6. Study the Relay Switch and perform swiching of relays to turn ON/OFF.
7. Study the Buzzer operation by using the micro-controller.
8. Study the stepper motor and interfacing stepper Motor to the Micro-controller.


Departmental Electives- I, II
1. Satellite & TV Engg
2. Data Communication & Network
3. Mobile Communication
4. Nano Technology
5. Advance Microprocessor Architecture
6. Photonic switching and Network
7. Digital System Design
8. Device modeling for circuit simulation
9. HDL and FPGAs
10. Electronic Switching Circuits


Open Elective
1. CE-1 Environmental Science and Engg.
2. CE-2 Transportation system planning
3. CE-3 Earthquake Engg
4. CSE-1 Image Processing
5. CSE-2 UNIX Environment Programming
6. CSE-3 Information Security System
7. CSE-4 Computer graphics
8. ME-1 Energy Conservation and Management
9. ME-2 Alternate Sources of Energy
10. ME-3 Computer Graphics and rapid prototyping
11. ME-4 Noise Control
12. ME-5 Elements of Mechanical Engineering
13. ME-6 Product Design and Value Engineering
14. ME-7 Value Engineering
15. ME-8 Science and Technology
16. EE-1 Neural network and fuzzy logic
17. EE-2 Switched Mode power supplies
18. EE-3 Fundamental of Electrical machines
19 EE-4 Image Processing
20. BS-1 Physics of Semiconductor Devices
21. BS-2 Material Characterization
22. BS-3 Bio Polymer
23. BS-4 Aspects of Nano Technology
24. BS-5 Polymer Technology
25. BS-6 Operation Research
26. HU-1 Managing Interpersonal and group processes
27. HU-2 Human resource Management
28. HU-3 Financial Management
29. HU-4 Marketing Management
30. HU-5 Managerial Communication

SEMESTER WISE CREDITS
I Semester 31
II Semester 30
III Semester 23
IV Semester 23
V Semester 19
VI Semester 19
VII Semester 24
VIII Semester 20
TOTAL CREDITS 189

ECE - DE 1. SATELLITE AND TV ENGINEERING.L T P 3 0 0
1. INTRODUCTION TO SATELLITES:Satellite Frequency Bands, Satellite Systems, Multiple Access, Frequency Rouse by orthogonal Polarizations,Advent of Digital Satellite Communications, Satellite Description, Earth Station. types of Demand Assignments, Massage Transmission by FDMA, Massage Transmission by TDMA, Satellite Packet Switching.
2. SATELLITE TRANSPONDER AND LINK:Transponder Model ,Satellite signal Processing, RF-RF Translation, IF Demodulation, Interference Analysis,Rain Induced Attenuation, Rain Induced Cross-Polarization Interference, System Availability, Satellite Link Design.
3. CARRIER RECOVERY:Carrier Recovery for MPSK, PLL, Carrier Recovery with narrowband band pass filter and AFC loop, symbol Timing Recovery Circuit.
4. Principles of TV: Theory of Scanning, blanking synchronization, nature of picture signals line and field frequency, interlacing, resolution, block diagram of transmitter and receiver.
5. Television Cameras and Picture Tube: Image orthicon, vidicon, plumbicon (Principle of operation, construction and working), TV picture tubes.
6. Transmitter: Modulation system used to sound and various transmitter vestigial side bands. TV transmitter and receiver response characteristics.
7. Colour T.V. and Applications: Operation of colour T.V: Hue, saturation and luminance, Colour signal generation colour picture tubes (Basic principle) colour television systems, N.T.S.C., PAL and SECAM:Colour TV Receiver, Video tape recording, VCR, Merits of Digital Processing, Block Diagram of Digital T.V.
receiver. HDTV, Concept of Plasma Screen

BOOKS RECOMMENDED
1. Digital Satellite Communications (Second Edition) Tri, T.Ha. 1990.
2. Introduction to Radar Systems, by Merill. I Skolnik.
3. Monochrome & Colour T.V. by R.R.Gulati.
4. Basic Television by G.M.Grobe.


ECE- DE 2. DATA COMMUNICATION & NETWORK L T P 3 0 0
1.Introduction to data communication Goals and Applications of Networks, LAN, WAN, MAN, Wireless network, Protocol hierarchies,design issues of layers, Interfaces and services. Reference Model: The OSI reference model, TCP/IP
reference model, The Internet.
2.Physical Layer,Maximum data rate of a channel, Transmission media, Wireless transmission, Circuit switching,Packet switching, network topology.
3.Data Link Layer,Data link layer design issues, services provided to network layers, Framing, Error control, Flow control, Error detection and correction, Elementary data link protocols, An unrestricted Simplex protocol, A Simplex Stop-and-Wait protocol, Simplex Protocol for a noisy channel, Sliding Window
protocols, A protocol using go-back-N, A protocol using selective repeat, Example data link protocol-HDLC, PPP and SLIP.
4.Medium Access Sublayer,Channel Allocations, Static and dynamic allocation in LAN, Multiple Access protocols, ALOHA,Carrier Sense multiple access protocols, Wireless protocols, Collision free protocols, Limited contention protocols, IEEE standard 802.3 and Ethernet, IEEE standard 802.4, Token bus IEEE standard 802.5, Token Ring, Distributed Queue Dual bus, Logical link control, bridges, High speed
LAN.
5.Network Layer,Network Layer design issue, Routing algorithms, Congestion Control Algorithms,Internetworking.
6.Transport Layer,Transport services, Design issues, elements of transport protocols, simple transport protocols,Connection management, TCP, UDP.
7.Session, Presentation and Application Layer,Session Layer - Design issues, remote procedure call.Presentation Layer - Design issues, Data compression techniques, cryptography.Application Layer - File Transfer, Access and Management, Electronic mail, Virtual Terminals.
8.ISDN Narrowband ISDN, Broadband ISDN and ATM, Virtual circuits

TEXT BOOKS
1. A.S. TANENBAUM, Computer Networks, 3rd Edition, Prentice Hall India.
2. S. KESHAV, An Engineering Approach on Computer Networking, Addison Welsey.
3. W. STALLINGS, Data and Computer Communication, Macmillan Press.

ECE- DE 3.MOBILE COMMUNICATION L T P 3 0 0
1. Introduction to Cellular Mobile Systems:A basic cellular system, performance criteria, uniqueness of mobile radio environment, operation of cellular systems, planning a cellular system, analog & digital cellular systems.
2.Elements of Cellular Radio Systems Design:General description of the problem, concept of frequency reuse channels, co-channel interference reduction factor, desired C/I from a normal case in an omni directional antenna system, cell splitting,consideration of the components of cellular systems.
3. Interference:Introduction to co-channel interference, real time co-channel interference co-channel measurement design of antenna system, antenna parameter and their effects, diversity receiver in co-channel interference – different types.
4. Cell Coverage for Signal & Traffic:General introduction, obtaining the mobile point to point mode, Radio propagation characteristics:models for path loss, shadowing and multipath fading, propagation over water or flat open area,
foliage loss, propagation near in distance, long distance propagation, point to point prediction modelcharacteristics,cell site, antenna heights and signal coverage cells, mobile to mobile propagation.
5. Cell Site Antennas and Mobile Antennas:Characteristics of antennas, antenna at cell site, mobile antennas
6. Frequency Management, Channel Assignment and hand off:Frequency management, fixed channel assignment, non-fixed channel assignment, traffic & channel
assignment, Why hand off, types of handoff and their characteristics, handoff analysis, dropped call rates & their evaluation.
7. Multiple access techniques used in mobile wireless communications:
FDMA/TDMA, CDMA. FDM/TDM Cellular systems, Cellular CDMA, soft capacity, Earlang
capacity comparison of FDM/TDM systems and Cellular CDMA.
8.Global System for Mobile Communication (GSM) system overview: GSM Architecture,
Mobility management, Network signaling ,Frequency allocation and control, Base System and Master System, GSM, DCS 1800, Various value added services.

Text Books:
1. Wireless Communication; Principles and Practice; T.S.Rappaport
2. Mobile Commu8nication
3. Principles of Mobile Communication, G.LStuber Kluwer Academic, 1996
Reference Book
1. Wireless and Digital Communications; Dr. Kamilo Feher (PHI)
2. Mobile Communication Hand Book; 2nd Ed.; IEEE Press
3. Mobile Communication Engineering – Theory & Applications; TMH


ECE-DE 4. NANO TECHNOLOGY L T P 3 0 0
1. Introduction
Introduction to nanoscale science and technology, why nanoscience and nanotechnology?Length energy and time scales, nanostructure types and properties, electronic and optical,properties of materials, top down approach to nanolithography. Spatial resolution of optical,deep ultraviolet, X-ray, electron beam and ion beam lithography.
2. Quantum Mechanics
Band gap engineering, Quantum confinement of electrons in semiconductor nano structures,One dimensional confinement (Quantum wires), Two dimensional confinement(Quantum wells), three dimensional confinement (Quantum dots) and Bottom up approach, Single electron transistors, coulomb blockade effects in ultra small metallic tunnel junctions.
3. Molecular Techniques
Molecular Electronics, Chemical self-assembly, carbon fullerenes and nano tubes, Self assembled mono layers, Applications in biological and chemical detection.
4. Surface analytical instrumentation techniques for nanotechnology
Atomic scale characterization techniques, scanning probe microscopy, scanning tunneling microscopy and atomic force microscopy,.

BOOKS:Text
1. Beenaker and Van Houten “Quantum Transport in Semiconductor Nanostructures in
Solid state Physics” Ehernreich and Turnbell, Academic press, 1991
References
1. David Ferry “ Transport in Nano structures” Cambridge University press 2000
2. Y. Imry “ Introduction to Mesoscopic Physics, Oxford University press 1997
3. S. Dutta “ Electron Transport in Mesoscopic systems” Cambridge University press
4. H. Grabert and M. Devoret “Single charge Tunneling” Plenum press 1992


ECE- DE 5. ADVANCE MICROPROCESSOR ARCHITECTURE L T P 3 0 0
1. FUNDAMENTALS OF COMPUTER DESIGN:
Introduction, The task of a Computer Designer, Technology and Computer Usage Trends,Cost ad Trends in Cost, Measuring and reporting performance, Quantitative principles of computer design, Control Units: Hardwired And Micro Programmed Design Concept,Microprogramming, Bus architectures: Uni-bus and multi-bus architectures.
2. INSTRUCTION SET PRINCIPLES AND EXAMPLES:
Introduction, Classifying Instruction Set Architectures, Register Transfer and Micro operation: Register transfer, Register transfer language, Bus and Memory transfers. Memory Addressing, Operations in the Instruction Set, Type and Size of Operands, Encoding an Instruction Set, The Role of Compilers.
3. PIPELINING:
Introduction, The Basic Pipeline, Pipeline Hazards, Data Hazards, Control Hazards,Difficulties in Implementing Pipelines, Extending the Pipeline to Handle Multicycle Operations, Instruction Set Design and Pipelining.
4.PARALLEL COMPUTER MODELS AND INSTRUCTION LEVEL PARALLELISM:
The state of computing, Classification of parallel computers, Multiprocessors and
multicomputers, Multivector and SIMD computers, Instruction Level Parallelism, Overcoming Data.Hazards with Dynamic Scheduling, Reducing Branch Penalties with Dynamic , Hardware Support for Extracting More Parallelism.
5. MEMORY HIERARCHY DESIGN:
Introduction, The Fundamentals of Caches, Reducing Cache Misses, Reducing Cache Miss Penalty, Reducing Hit Time, Main Memory, Virtual Memory, Issues in the Design of Memory Hierarchy.
6. MULTIPROCESSORS:
Introduction, Characteristics of Application Domains, Centralized Shared Memory
Architectures, Distributed Shared Memory Architectures, Synchronization, Models of Memory Consistency, Crosscutting Issues.
7. ADVANCED PROCESSORS:
Advanced processor technology, CISC Scalar Processors, RISC Scalar Processors,
Superscalar Processors, VLIW Architectures, Vector and Symbolic processors

BOOKS:
1. Kai Hwang, “Advanced computer architecture”, TMH.
2. D. A. Patterson and J. L. Hennessey, “Computer organization and design,” Morgan Kaufmann, 2nd Ed.
3. J.P.Hayes, “computer Architecture and organization”, MGH.
4. Harvey G.Cragon,”Memory System and Pipelined processors”; Narosa Publication.
5. R.K.Ghose, Rajan Moona & Phalguni Gupta, “Foundation of Parallel Processing”;
Narosa Publications.


ECE- DE 6. PHOTONIC SWITCHING AND NETWORK L T P 3 0 0
Introduction: Overview of the architectures and principles of optical systems and networks;Access networks; LANS, WANS & MANS; SONET, SDH and ATM.Components for Optical Networks: Fused fibre devices such as couplers, WDMs and WFCs; filters and WDMs such as interference filters, Fabry Perot etalons and Bragg gratings;
optical isolators;integrated optic modulators and switches;wavelength converters,
Dispersion Compensating techniques.Optical Amplifiers (EDFAs and SOAs): Principles of operation; gain characteristics;wavelength characteristics, cross talk and wavelength conversion; noise characteristics and noise figure; characteristics of amplifiers cascades.Design and Analysis of Optically Amplified links: systems performance analysis and power budget analysis for BERs of 109 for optically Amplified links.Design and Analysis of Common Optical Systems and Networks: Power budgets, issues of component specification and tolerances; PONs, BPONs, WDM systems, wavelength routing networks and all optically switched systems. Optical Fiber impairment issues like:higher order dispersion, fiber nonlinearities in optical systems and Networks,optical solitions.Note: Design and analysis is to be learned practically using simulation tool OptSim or OptiSystem and Artifex.

Books Recommended:
1. Ramaswami R & Safarajan K, “Optical Networks: A Practical Perspective” 2nd
Edition, Morgan Kaufmann.
2. OptSim/OptiSystem Mannuals.
3. Abdellatif Marrakchi, “Photonic Switching and Interconnects,” Marcel Dekker,
November 1993
4. Jean-Pierre Laude, “DWDM fundamentals, Components, and Applications, “Artech
House, January 2002.
5. Debra Cameron, “Optical Networking,” Wiley, December 2001.

ECE- DE 7. DIGITAL SYSTEM DESIGN L T P 3 0 0
1. Introduction to Digital Design Concepts Review of digital design fundamentals,
minimization and design of combinational circuits, sequential machine fundamentals.
2. Traditional Approaches to Sequential Analysis and Design State diagram, analysis of synchronous ckts, design of synchronous sequential state machine, design and applications of counters and shift registers.
3. Multipin Put System Controller Design System controller, controller design principles,timing and frequency considerations, DFD development, controller architecture design,asynochorous in put handling, state assignment concepts date / flip / flop level implementation using VEM's
4. System Controller Using Comproational MST/LST CKTS : Using MSI decoder,
multiplexer in system controllers, applications of ROM, PROM, PLAA, FPLA in system controller design.
5. Programmable System Controller Concepts and basic features of programmable system controller microinstructions, programmable controller with fixed instructions set with subroutine capability, application of 8 x 02, 74S 422 and MC2900 in system control design.
6. Asynchronous Finite State Machines Asynchronous analysis, design of asynchronous machine, cycles and races, hazards excitation map MEV method.
7. VHDL Basic Language elements : data objects, classes and data types, operators,overloading, logical operators, VHDL representation of Digital design entity, entity and architectural declarations, introduction to behavioral, dataflow and structural models.

BOOKS:
1. An Engg. approach to Digital Design By W. I. Fletcher, PHI
2. VHDL-analysis and modeling of digital systems - Navabi Z. (McGraw Hill)
3. VHDL Primer, by Bhaskar (Prentice Hall)


ECE- DE 8. DEVICE MODELLING FOR CIRCUIT SIMULATION L T P 3 0 0
Basics Semiconductor Physics.
Principle of circuit simulation and its objectives.
Introduction to SPICE: AC, DC, Transient, noise, temperature extra analysis.
Junction Diodes: DC, small signal, large signal, high frequency and noise models of diodes.
Measurement of diode model-parameters.
BJT: DC, small signal, high frequency and noise models of bipolar junction transistors.
Extraction of BJT model parameters.
MOSFETs: DC, small signal, high frequency and noise models of MOSFETs. MOS
Capacitors.
Device SCALING: short and narrow channel MOSFETs. MOSFET channel mobility model,
DIBL, charge sharing and other non-linear effects.
MOS Models: Level-1 and level-2 large signal MOSFET models. Introduction to BSIM
models. Extraction of MOSFET model parameters.
JFET & MESFETs: modeling of JFET & MESFET and extraction of parameters.
HBTs: Principles of hetrojunction devices, HBTs, HEMT

BOOKS
Text
1 S.M. Kang & Y. Leblibici, “CMOS Digital Integrated Circuits-Analysis & Design”, TMH.
2 S.M. Sze, “Physics of semiconductor devices”, Wiley Pub.
References
1. Rashid, “SPICE”.
2. Sedra, Smith, “SPICE”.
3. Bar Lev, “Basic Electronics”.
4. BG Streetman, “Solid state Electronic Devices”, PHI.
5. Raghuram, Electronic Circuits.


ECE- DE 9. HDL & FPGA L T P 3 0 0
VHDL Language, Design methodology based on VHDL, Elements of VHDL, Top down
design, verification.Basic concept in VHDL: Characterizing Hardware Language, Timing, Concurrency,modelling Hardware, Objects & Classes, Signal assignment, Inertial delay mechanism,Transport delay mechanism, Comparing Inertial and Transport.Concurrent and Sequential Assignment: concurrent assignment, Event and Transaction,Delta delay, Sequential placement of transaction.
Structural Specification of Hardware: Component declaration, Inverter model, NAND
gate model, Logic Design of Comparator, VHDL description of comparator, VHDL
description of a simple test-bench, simulation, Logic design of Latch, Flip-flop, Counter and Registers.Behavioural description of Hardware: process Statements, Assertion Statement, Sequential wait statement, and Behavioural state machine, two-phase clocking Implementation.State machine description, A sequence detector, Mealy and Moore machine.Data flow Description in VHDL: Multiplexing and data selection, General Multiplexing,Guarded signal assignments, Block Declaration Parameters, Resolving between several driving values, General data flow circuits.
FPGA Architecture.. Programming technologies like SRAM, Antifuse EPROM and
EEPROM. Mux based Design. LUTs. Xilinx LCA. CLBs, Logic realization. Channel and
I/Os. Timing and Power dissipation. CPLD architecture. Altera Max Logic Block.

Text Book:
VHDL primer by J. Bhasker; Addison Wesley Longman Pub.
VHDL: Analysis and Modelling of Digital Systems by Z. Navabi; McGraw Hill Pub.


ECE- DE 10.ELECTRONIC SWITCHING CIRCUITS L T P 3 1 0
1. INTRODUCTION TO SEQUENTIAL CIRCUITS - Flip –Flops, flip-flop
conversions, flip-flop excitation table. Classification of sequential circuits. Registers and A to D and D to A converter circuits.
2. DESIGN & ANALYSIS OF SYNCHRONOUS SEQUENTIAL CIRCUITS: -
Sequential circuits introductory examples, Counters, Sequence Detector and
Sequence Generator circuits Definite state model Basic definition, capabilities &
Limitation of finite state machines, state equivalence & machine minimization,
simplification of incompletely specified machines, Extraction of maximum
compatibles, synthesis & analysis of synchronous sequential circuits.
3. DESIGN OF ASYNCHRONOUS SEQUENTIAL CIRCUITS: - Introduction to
asynchronous circuits, timing diagram, state diagram & flow tables, fundamental
mode circuits, synthesis, state assignment in asynchronous sequential circuits, pulse mode circuits.
4. DESIGN OF ASYNCHRONOUS SEQUENTIAL CIRCUITS: - Introduction to
asynchronous circuits, timing diagram, state diagram & flow tables, fundamental
mode circuits, synthesis, state assignment in asynchronous sequential circuits, pulse mode circuits.
5. HAZARDS: - Introduction, gate delays, generation of spikes, production of static hazards in combinational networks, elimination of static hazards, design of hazard free combinational networks, hazard free asynchronous circuit design, dynamic hazards, essential
6 CONTACT NETWORKS & SYMMETRIC NETWORKS: - Relay contents,
analysis & Synthesis of contact Networks, Properties of symmetric functions
Synthesis & identification of symmetric functions

BOOKS RECOMMENDED:Text Books
1. Switching and finite automata theory by ZVI Kohavi
2. Logical design of switching circuits by Douglas Lewin.
3. Logic Design by N.N Biswas

ECE- 484 1. ADVANCED TELECOMMUNICATIONS L T P 3 0 0
Evolution of Tele-Communication : Basic Switching System, Simple Tele-phone
Communication, Telephone Transmitter, Telephone receiver, Telephone’s bell & dialer pulsing mechanism, subscribers telephone sets, Dialing types, signaling tones., Brief Introduction to Electromagnetic Exchanges.
Electronic Switching – Space Division Switching Stored Programme Control – Centralized SPC, Distributed SPC, Software Architecture, Application Software – Enhanced Services,Multi Stage Switching Networks.
Time Division Switching - Time Division space switching, Time Division Time Switching,Time multiplexed space switching, Time multiplexed Time Switching, Combination Switching Traffic Engineering, Grade of Service and Blocking Probability - Telephone Networks,Subscriber Loops, Switching Hierarchy and Routing, Signaling Techniques, In Channel,Common Channel. Transmission media.
Fax system: Basic facsimile system, facsimile applications working of FAX machines,recording media, FAX reproduction technique.Mobile radio communication: Introduction, cellular structures & planning, Frequency allocation, propagation Problems, Base station antennas, Mobile unit antenna Type of mobile systems, Handoffs, Analog cellular Radio Digital Cellular radio, Digital Narrow band
TDMA, CDMA technology.

BOOKS
1.Digital Telemetry by John C Bellamy.
2.Telecommunication Switching System and Network by Tyagrajan
3.Telecommunication system Engg. by Roger L.Freeman.
4.Wireless Mobile Communication by Rappaport


ECE- DE 2.BIOMEDICAL ELECTRONIC INSTRUMENTATION L T P 3 0 0
1. Bioelectronics signal: Origins of Bioelectric signals, Electrocardiogram (ECG),Electromyogram (EMG). Recording Electrodes: Silver-silver Electrodes, Electrodes for ECG, EEG and EMG. Physiological Transducers: Pressure Transducers, Temperature sensors, Pulse sensors.
2. RECORDING AND MONITORING INSTRUMENTS: Biomedical Recorders: Block
diagrams of electrocardiogram phonocardiograph, Electroencephalograph,
Electromyography. Monitoring system, block diagram of patient monitor, measurement of heart rate, blood pressure measurement, and temperature measurement respiration rate. Basic Arrhythmia Monitoring system: Block diagram, Foetal Monitoring System: Methods of monitoring Foetal Heart Rate, Abdomen Foetal Electrocardiogram and Foetal Phonocardiogram. Biomedical Telemetry: Introduction, block diagram and description of single channel/multi channel telemetry systems.
3. AUDIO METERS: Mechanism of hearting, measurement of sound, basic audiometer,
pure tone audiometer, sped audiometer.
4. IMAGE SYSTEMS: Introduction, Basic principle and block diagram of x-ray machine,x-ray computed topography (C.T. Scanner) and Nuclear Magnetic resonance (NMR)Topography, Ultrasonic Imaging System: Introduction, medical ultrasound, block diagram of pulse echo-system, A-Scan, M-mode, B-scanner and real time ultrasound imaging systems.
5. THERAPEUTIC EQUIPMENTS: Type of cardiac Pacemakers. Cardiac Defibrillator.
Kidney Machine.
6. PHYSIOTHERAPHY EQUIPMENTS: Short-wave Diathermy, Microwave Diathermy,
Ultrasound Therapy unit.
7. PATIENT SAFETY: Electric shock hazard, leakage currents, Test Instruments for
checking safety parameters of Biomedical Equipments.

BOOKS RECOMMENDED:
1. Handbook of Biomedical Instrumentation by R.S.Khandpur.
2. Biomedical Instruments: Theory and Design by Walter Welko- Witiz and Sid Doutsch


ECE- DE 3. INTRODUCTION TO VLSI AND HDL L T P 3 0 0
1 Introduction, Trends & Projections in VLSI Circuits, Flow diagram of VLSI
Circuit Design and VLSI Design issues.
2 MOSFET fundamentals, Enhancement Mode MOSFETs, Depletion Mode
MOSFETs, Weak & strong Inversion Conditions, Threshold Voltage Concept in
MOSFETs, IV Characteristics of a MOSFET, Limitations in IV Model and
MOSFET Parasitic.
3 Basic VLSI Design Styles-NMOS, CMOS Process flow ; Noise Margin; Inverter
Threshold Voltage; NMOS Inverter design and characteristics; CMOS Inverter
Design and Properties; Delay , Power Dissipation and scaling in CMOS circuits.
Introduction to SPICE
4 Introduction to HDL: Design Flow, Design Methodologies, HDL History,
Capabilities, Hardware Abstraction, Basic Terminology, Model Analysis,
Comparison between VHDL and Verilog.
5 Basic VHDL Elements: Identifiers, Data Objects, Data Types, Operators.
6 Behavioral Modeling: Entity declaration, architecture body, Various Sequential
Statements and Constructs, multiple processes, postponed processes.
7 Dataflow Modeling: Concurrent Signal Assignment Statements, delta delay
model, multiple drivers, block statement, concurrent assertion statement.
8 Structural Modeling: Component Declaration, component Instantiation,
resolving signal values.
9 Supporting Constructs: Generics and Configuration, Subprograms and
Overloading, Operator overloading, Package declaration, package body, design
Libraries, visibility.

Text Books
1. S.M. Kang & Y. Leblibici, “CMOS Digital Integrated Circuits-
Analysis & Design”, TMH, Ed. 2003.
2. B.G. Streetman & S. Banerjee, “Solid State Electronic Devices”,PHI.
3. K. Eshraghian & Pucknell, “Introduction to VLSI”, PHI.
4. VHDL primer by J. Bhasker; Addison Wesley Longman Pub.
5. VHDL: Analysis and Modelling of Digital Systems by Z. Navabi;
McGraw Hill Pub.


ECE- DE 4. ELECTRONIC SWITCHING CIRCUITS L T P 3 0 0
1. INTRODUCTION TO SEQUENTIAL CIRCUITS - Flip –Flops, flip-flop
conversions, flip-flop excitation table. Classification of sequential circuits. Registers and A to D and D to A converter circuits.
2. DESIGN & ANALYSIS OF SYNCHRONOUS SEQUENTIAL CIRCUITS: -
Sequential circuits introductory examples, Counters, Sequence Detector and
Sequence Generator circuits Definite state model Basic definition, capabilities &
Limitation of finite state machines, state equivalence & machine minimization,
simplification of incompletely specified machines, Extraction of maximum
compatibles, synthesis & analysis of synchronous sequential circuits.
3 DESIGN OF ASYNCHRONOUS SEQUENTIAL CIRCUITS: - Introduction to
asynchronous circuits, timing diagram, state diagram & flow tables, fundamental
mode circuits, synthesis, state assignment in asynchronous sequential circuits, pulse mode circuits.
4.HAZARDS: - Introduction, gate delays, generation of spikes, production of static hazards in combinational networks, elimination of static hazards, design of hazard free combinational networks, hazard free asynchronous circuit design, dynamic hazards, essential
5 CONTACT NETWORKS & SYMMETRIC NETWORKS: -
Relay contents, analysis & Synthesis of contact Networks, Properties of symmetric
functions , Synthesis & identification of symmetric functions

BOOKS RECOMMENDED:
Text Books
1. Switching and finite automata theory by ZVI Kohavi
2. Logical design of switching circuits by Douglas Lewin.
3. Logic Design by N.N Biswas

SEMESTER WISE CREDITS
I Semester 31
II Semester 30
III Semester 23
IV Semester 23
V Semester 19
VI Semester 19
VII Semester 24
VIII Semester 20
TOTAL CREDITS 189

Class 10+2 Certificate of Qualifying Examination (Attested copy)

Marks Sheet of Qualifying Examination (Attested copy)

FACULTY MEMBERS

1.Name:Dr. Vinod Kapoor (kapoor@nitham.ac.in)     
Designation:Professor & Head
Qualification:Ph.D.(Engg.),MBA
Specialization:Optical Fiber Communication
Phone (01972)304620 (O)304621 (R)

2.Name:Dr. (Mrs.) Rajeevan Chandel (rchandel@nitham.ac.in)     
Designation:Associate Professor
Qualification:B.E., M.Tech., Ph.D.
Specialization:VLSI Design, Low Power High Speed Interconnects and Microelectronics
Phone (01972)304624 (O)304535 (R)

3.Name:Sh. Surender Soni (soni@nitham.ac.in)
Designation:Associate Professor
Qualification:B. Tech., M.E.
Specialization:Electronics & Communication
Phone (01972)304630 (O)

4.Name:Sh. Ashok kumar (ashok@nitham.ac.in)     
Designation:Associate Professor
Qualification:B.E., M.E.
Specialization:Electronic Product Design & Technique
Phone (01972)304632 (O)

5.Name:Smt. Gargi Khanna (gargi@nitham.ac.in)     
Designation:Assistant Professor
Qualification:B. Tech., M.E. (Pursuing Ph.D.)
Specialization:Electronics & Communication
Phone (01972)304634(O)304625(R)

6.Name:Sh. Ashwani Kumar (ashwani@nitham.ac.in)     
Designation:Assistant Professor
Qualification:B. Tech., M. Tech.
Specialization:Nano Electronics and VLSI
Phone (01972)304638(O)

7.Name:Sh. Krishan Kumar (krishan_rathod@nitham.ac.in)     
Designation:Assistant Professor
Qualification:B.E., M. Tech
Specialization:Electronics & Communication
Phone (01972)304642(O)
 
8.Name:Sh. Manoranjan Rai Bharti (manoranjan@nitham.ac.in)     
Designation:Assistant Professor
Qualification:B.Tech., M. Tech.
Specialization:Communication & Control Systems
Phone (01972)304646(O)

9.Name:Sh. Gagnesh Kumar (gagnesh@nitham.ac.in)     
Designation:Assistant Professor
Qualification:B.E., M. Tech.
Specialization:Microelectronics
Phone (01972)304648(O)304649(R)

10.Name:Sh. Vinod Kumar (vinodsharma@nitham.ac.in)     
Designation:Assistant Professor
Qualification:B.E., M. Tech.
Specialization:Analog and Digital Electronics
Phone (01972)304644(O)304645(R)

11.Name:Sh. Rakesh Sharma     
Designation:Assistant Professor
 
12.Name:Sh. Philemon Daniel P.
Designation:Assistant Professor                 

 

 

National Institute ational of Technology
Hamirpur (H.P.)-177 005

Registration (M.Tech. / M.Arch. / MBA / Ph.D.)
Session 2010-2011
Total passport size photographs required: 04

Following documents and credentials are required and may please be arranged in
sequence for verification at the time of registration.

1. Class 10th (High School) Board Certificate as a proof of date of birth (Attested copy)

2. Certificate of Qualifying Examination (Attested copy)

3. Marks Sheet of Qualifying Examination (Attested copy)

4. Candidate appearing for final examinations must also bring the following additional documents:

A Certificate in original from the Principal/Director of their Institute stating that by June 30,2010, the
candidate will be appearing for final examination in all subjects required for obtaining their bachelor
degree.

A certificate from the Principal/Director certifying that the candidate has obtained an average of 60%
marks or 6.75 CGPI (on ten point scale) based on latest available marks/grade.

5. Character Certificate (Attested copy)

6. Affidavit for giving reason for study gap (if any) duly sign Oath Commissioner / by Notary Public /
Executive Magistrate. (Original)

7. Certificate of Category (SC/ST/OBC*) (if applicable), issued by the competent Authority (Attested Copy)
SC, ST, OBC and PH candidates will be required to produce original certificate issued by the competent
authority at the time of registration, failing which they will not be considered for admission/ registration.
*OBC candidates will have to satisfy the caste and creamy layer requirements detailed on the following
    National Commission for Backward Classes (ncbc) websites:
(a) http://ncbc.nic.in/backward-classes/index.html
(b) http://ncbc.nic.in/html/creamylayer.html
Very Important Note:
• OBC candidates should bring OBC certificate only in the prescribed performa.
• OBC Caste belonging to Central List is to be considered vide MHRD, GOI OM No.: 1-1/2005-
U.1.A/847 dated 20th April, 2008 Para VIII, Page 2.

Kind
    Attention
• It is compulsory for the candidate to submit category certificate in the prescribed format.
If the verification reveals that the claim of the candidate to belong to SC/ST/OBC is false,
the admission of such candidate should be cancelled forthwith without assigning any further
reasons and without prejudice to such further action as may be taken under the provisions of the
Indian Penal Code for production of false certificate.
See letter no.:

8. Declaration / Undertaking-for OBC candidates only (if applicable) (Original)

9. Certificate of Physically Handicapped (if applicable) (Attested Copy)
For physically handicapped category a minimum of 40% disability is required and certificate issued on or
after January 1, 2010 will only be acceptable.

10. Medical Fitness Certificate issued by the Medical Officer of NIT dispensary or any Government Civil
hospital. (Original)
For medical certificate, student should know his / her blood group.

11. Migration Certificate (Original)

12. An ‘Undertaking’ by the student - Institutional (Original)

13. An ‘Affidavit by the student’ given in Annexure I [Anti-ragging measures] (Original)

14. An ‘Affidavit by parent / guardian’ given in Annexure II [Anti-ragging measures] (Original)
The students and their parents are required to submit the above mentioned affidavits at the time of registration.
Also, a student seeking admission to the hostel shall have to submit additional affidavits countersigned by his/her parents/guardians
in the form of Annexure I, II along with his/ her application for hostel accommodation.

15. No objection certificate from sponsoring organization (if any) (Original)

16. Gate Score Card (Attested Copy)
You will not be allowed to register if you fail to produce original certificates, mark-sheets and other
documents as mentioned above. You must bring two sets of attested photocopies of all the above
mentioned documents at the time of registration.
Note 1: If the original certificates are not in Hindi/English, duly certified Hindi/English version/translation of such
certificates will be required.


Dr. Sunil
Coordinator (Registration)
NIT-Hamirpur (HP)
01972-304134 (Off), 01972-304135 (Res), 09418156759 (Mobile)

NATIONAL INSTITUTE OF TECHNOLOGY, HAMIRPUR (HP)-177005
Modified Teaching Scheme M.Tech., COMPUTER SCIENCE & ENGINEERING
(July 2010 onwards)


FIRST SEMESTER
S.No. Course No. Course Title L T P C
1. CSE-511 Parallel Processing 3 0 0 3
2. CSE-512 Theory of Computer Science 3 0 0 3
3. CSE-513 Database Systems 3 0 2 4
4. CSE-514 Operating System 3 0 2 4
5. CSE-EL-1 3 0 0 3
6. CSE-516 Laboratory – I 0 0 3 2
Total 15 0 7 19


SECOND SEMESTER
S.No. Course No. Course Title L T P C
1. CSE-521 Software Engineering 3 0 0 3
2. CSE-522 Topics in Computer Networks 3 0 2 4
3. CSE-523 Algorithm Analysis & Design 3 0 0 3
4. CSE-El-2 3 0 0 3
5. CSE-El-2 3 0 0 3
6. Open Elective (from other Dept) 3 0 0 3
7. CSE-524 Laboratory – II 0 0 3 2
Total 18 0 5 21


THIRD SEMESTER
S.No. Course No. Course Title L T P C
1. CSE-600 Seminar 0 0 3 4
2. CSE–El-3 3 0 0 3
3. CSE-700 Dissertation (also to be
continued in the IV semester)
0 0 6 6
Total 3 0 9 13


FOURTH SEMESTER
S.No. Course No. Course Title L T P C
1. CSE-700 Dissertation (also to be
continued in the III
semester)
0 0 0 14
Total 0 0 0 14


Elective-1 Elective-2 Elective-3 Open Elective
CSE-EI-1(a)
Multimedia
Technology


CSE-El-2(a)
Computer
Vision and Image
Processing


CSE-El-3(a)
Logic and
Functional
Programming


CSE-520(a)
Database
Management
System

CSE-EI-1(b)
Data Mining

CSE-El-2(b)
Distributed
Computing System

CSE-El-3(b)
Machine Translation

CSE-El-1(c)
Computer
Graphics

CSE-El-2(c)
Mobile Computing
CSE-El-3(c)
Knowledge Discovery

CSE-El-1(d)
Object
Oriented Software
Modeling

CSE-El-2(d)
Soft Computing

CSE-El-3(d)
Software
Architecture

CSE-El-1(e)
Artificial
Intelligence

CSE-El-2(e)
Network Programming

CSE-El-3(e)
Embedded System

CSE-El-1(f)
Topics in
Internet
Technologies

CSE-El-2(f)
Cryptography/Computer
Security

CSE-El-3(f)
Natural
Language Processing
Semantics

CSE-El-1(g)
Simulation and
Modeling

CSE-El-2(g)
Electronic Commerce

CSE-El-3(g)
Advanced
Topics in
Algorithms and
data Structure

CSE-El-2(h)
Topics in Database
Systems

CSE-El-2(i)
Multimedia Information
System

CSE-El-2(j)
Fault Tolerance
Computing

CSE-El-2(k)
Real Time Systems

CSE-El-2(l)
Software Project
Management

CSE-El-2(m)
Natural Language
Processing

CSE-El-2(n)
CAD of Digital
Systems

CSE-El-2(o)
Algorithms in Coding

CSE-El-2(p)
Intelligent Agents
L T P C
3 0 0 3


CSE-511 Parallel Processing
Parallel Computer Models: The state of computing, multiprocessors and
multicomputers,multivector and SIMD computers, architectural development
tracks.
Program and Network Properties: conditions of parallelism, program
partitioning and scheduling, program flow mechanisms.
Processor architecture: pipelining, vector processing, superscalar
processors, hardware and compiler support for branch prediction, out-of-order
Instruction issue, speculative execution and other techniques for highperformance,
Instruction and data cache organizations, multilevel caches,
parallel memory systems, Support for virtual memory, Multiple processor
systems, taxonomy, programming models, message passing systems,
Interconnection networks, shared memory system, memory models, cache
coherence, I/O system, parallel disk organizations, Introduction to advanced
topics.
System Interconnect Architectures: Network properties and routing, static
interconnection networks and dynamic interconnection networks.
Processors and Memory Hierarchy: Advanced processor technology- CISC, RISC,
Superscalar,Vector, VLIW and symbolic processors, Memory hierarchy
technology, Virtual memory technology. Multivector Multiprocessors and Data
Flow Architecture.

Books and Referances
1. Kai Hwang “Advanced Computer Architecture”, MGH .
2. Hennessy, J.L., and Patterson, D.A., Computer Architecture, A quantitative
Approach, Morgan Kaufmann.
3. J.P.Hayes “Computer Architecture and Organization”, MGH.
4. Harvey G. Cragon, “Memory Systems and Pipelined Processors”,
Narosa Publication.
5. V. Rajaranam & C.S.R. Murthy, “Parallel Computers”, PHI.
6. R. K. Ghose, Rajan Moona & Phalguni Gupta, “Foundation of Parallel
Processing”, Narosa Publications.
7. Kai Hwang and Zu, “Scalable Parallel Computers Architecture”, MGH.
8. Stalling W., “Computer Organization & Architecture”, PHI.
9. Stone, H.S., High-Performance Computer Architecture Addison-Wesley Current
Literature
L T P C
3 0 0 3


CSE-512 Theory of Computer Science
Machines
Basic machine, FSM , Transition graph, Transition matrix, Deterministic and
non-deterministic FSM’S, Equivalence of DFA and NDFA, Mealy & Moore machines,
minimization of finite automata, Two-way finite automata.
Regular Sets and Regular Grammars
Alphabet, words, Operations, Regular sets, Finite automata and regular
expression, Pumping lemma and regular sets, Application of pumping lemma,
closure properties of regular sets.
Formal Grammars & Languages
Basic definitions and examples of languages, Chomsky hierarchy, Regular
grammars, context free & context sensitive grammars, context free languages,
non-context free languages, Chomskey normal forms, binary operations on
languages.
Turing Machines & Pushdown Automata
TM model, representation and languages acceptability of TM Design of TM,
Universal TM & Other modification, composite & iterated TM, Pushdown
automata , Acceptance by PDA.
Computability
Basic concepts, primitive & partial recursive function, Recursive function,
Decidability, Kleen’s theorem.
Undecidibility
Properties of recursive & recursively enumerable languages, Universal Turing
machine and an undecidable problem, Rice’s theorem & some more undecidable
problems.
Computational complexity Theory
Definition, linear speed-up, tape compression & reduction in number of tapes,
Hierarchy Theorem, Relation among complexity measures, Transition lemmas &
non deterministic hierarchies, properties of general complexity measures, the
gap, speed-up, union theorem, Automatic complexity theorem.

Text Book
1. John E. Hopcroft, Jeffery Ullman, Introduction to Automata theory,
Langauges & computation, Narosa Publishers.
Reference Books
1. E.V. Krishnamurthy, Introductory Theory of computer science.
2. K.L.P. Mishra, Theory of computer Science, Prentice Hall of India Pvt.
Ltd.
L T P C
3 0 2 4


CSE-513 Database Systems
Basic concepts: database & database users, characteristics of the database,
database systems, concepts and architecture, date models, schemas &
instances, DBMS architecture & data independence, database languages &
interfaces, data modeling using the entity-relationship approach. Overview of
hierarchical, Network & Relational Data Base Management Systems.
Relational model, languages & systems: relational data model & relational
algebra: relational model concepts, relational model constraints, relational
algebra, SQL- a relational database language: date definition in SQL, view
and queries in SQL, specifying constraints and indexes in sql, a relational
database management systems, DB2. DB2 Architecture, Logical Data Structures
Physical Data Structure, Instances, Table Spaces, Types of Table spaces,
Internal Memory Structure, Background Processes, Data Types, Roles &
Privileges, Stored Procedures, User Defined Functions, Cursors, Error
Handling, Triggers.
Relational data base design: function dependencies & normalization for
relational databases: functional dependencies, normal forms based on primary
keys, (1NF, 2NF, 3NF & BCNF), lossless join and dependency preserving
decomposition.
Concurrency control & recovery techniques: concurrency control techniques,
locking techniques, time stamp ordering, granularity of data items, recovery
techniques: recovery concepts, database backup and recovery from catastrophic
failures. Object-oriented Databases, Distributed and Parallel Databases,
Multi-databases, Access Methods, Transaction Management, Query Processing,
Deductive Databases, multimedia Databases, Real-Time Databases, Active
Databases, Temporal Databases, Mobile Databases, Database Benchmarks,
Database Security, Data Mining and Data Warehousing.

Books and References
1. Desai, B., “An introduction to database concepts”, Galgotia publications.
2. Readings in Database Systems edited by M. Stonebraker, Morgan Kaufmann,
2nd ed., 1994 Conference and Journal papers
3. Date, C. J. , “An introduction to database systems”, 7rd Edition, Addison
Wesley.
4. Date, C. J. , “An introduction to database systems”, 3rd Edition, Narosa
publishing house.
5. Elmsari and Navathe, “Fundamentals of database systems”, Addison Wesley.
6. Ullman, J. D., “Principals of database systems”, Galgotia publications.
7. DB2 Manuals
L T P C
3 0 2 4


CSE-514 Operating Systems
Overview: Importance of Operating Systems; Basic Concepts and Terminology; An
Operating System Resource Manager: Memory Management Functions, Processor
Management Functions, Device Management Functions, Information Management
Functions.
Process Management:
Processes: Concept, Job Scheduler, Process Scheduling, operation on process,
Threads, Overview of Inter-process communication CPU Scheduling: Scheduling
criteria, Scheduling Algorithms, Algorithm Evaluation
Process Synchronization: Synchronization Hardware, Semaphores, and Classical
Problem of Synchronization, Monitors and Atomic Transaction
Deadlocks: System model, Deadlock Characterization, Deadlocks Prevention,
Deadlocks Avoidance, Deadlocks Detection, Recovery from Deadlock
Storage Management:
Memory Management: Logical versus Physical Address Space, Swapping,
Contiguous Allocation, Paging, Segmentation and Segmentation with Paging
Virtual Memory: Demand Paging, Page Replacement, Page Replacement Algorithms,
Allocation of Frames, Thrashing, and Demand Segmentation
Information Management:Introduction; File Concept, Directory Structure,
Protection, Overview of File-SystemStructure, Allocation Method, Free-Space
Management, Directory Implementation
I/O Systems: I/O Hardware, Application of I/O interface, Overview of Kernel
I/O Subsystem, Disk Structure, Disk Scheduling, Disk Management, Swap-Space
Management, Disk Reliability.
Selected topics in operating systems of topical interest: Design,
implementation, correctness and performance related aspects. Past offerings
included study of subsystems such as process, storage and network subsystems.

Books and Referances
1. Silberschatz and Galvin, “ Operating System Concepts”.
2. Tannenbaum, “Operating systems Concepts”, PHI.
3. Peterson, “Operating System”.
4. Madnick E., Donovan J., “Operating Systems”, Tata McGraw Hill.
L T P C
3 0 0 3


CSE-521 Software Engineering
Introduction:
Problem domain, software engineering challenges, software engineering
approach.
Software Processes:
Software process, characteristics of software process, software development
process models, other processes.
Software Requirements analysis and specification:
Software requirements, problem analysis, requirements specification,
functional specification with use cases, validation, matrices.
Software Architecture
Role of software architect, architecture views, component and connector view,
architecture style for C & C view, discussion and evaluating architectures.
Planning a software project:
Effort estimation, project scheduling and staffing, software configuration
management plan, quality assurance plan, risk management, project monitoring
plan.
Function oriented design:
Design principles, module level concepts, design notation and specification,
structured design methodology, verification, metrics.
Object oriented design:
OO concepts, design concept, Unified Modeling Language, design methodology,
metrics.
Detailed Design, Software Measurements, metrics and Models:
Detailed design and PDL, verification, Metrics and their scope, Qualities of
a good Software metrics, classification of metrics, Cost estimation models
COCOMO, Quality attributes, SQA, Quality Standards, ISO 9000 and CMM.
Coding
Programming principles and guidelines, coding process, refactoring,
verification, metrics.
Testing
Testing fundamentals, black-box testing, white-box testing, testing process,
defect analysis and prevention, metrics - reliability estimation.
CASE Tools: Types of CASE tools, advantages and components of CASE tools,
Unified Modelling Language (UML)

Text Books
1. An integrated approach to software engineering, Pankaj Jalote, 3rd edition,
Narosa Publishing.
2. Pressman Roger R, “Software Engineering: A Practitioner’s Approach”, TMH
Reference Books
1. Fundamentals of Software Engineering Rajib Mall, Pretence Hall of India.
2. Software Engineering, Ian Sommerville , Addition- Wesley Publishing
Company.
3. Tom Pender “UML Bible”, Wiley Dreamtech
4. Ian Sommerville, “Software Engineering”, 5th edition, Addison-Wesley
5. Wamman S Jawadkar, “Software Engineering”, Tata McGraw-Hill.
L T P C
3 0 2 4


CSE-522 Topics in Computer Networks
Introduction: Overview of computer networks, seven-layer architecture, TCP/IP
suite of
protocols, etc. MAC protocols for high-speed LANS, MANs, and wireless LANs.
(For example, FDDI, DQDB, HIPPI, Gigabit Ethernet, Wireless ethernet,
etc.)Fast access technologies. (For example, ADSL, Cable Modem, etc.)
IPv6: Why IPv6, basic protcol, extensions and options, support for QoS,
security, etc., neighbour discovery, auto-configuration, routing. Changes to
other protocols. Application Programming Interface for IPv6. 6bone.
Mobility in networks. Mobile IP. Security related issues. IP Multicasting.
Multicast routing protocols, adderss assignments, session discovery, etc. TCP
extensions for high-speed networks, transaction-oriented applications. Other
new options in TCP.
Network security at various layers. Secure-HTTP, SSL, ESP, Authentication
header, Keydistribution protocols. Digital signatures, digital certificates.

Books and References
1. W. R. Stevens. TCP/IP Illustrated, Volume 1: The protocols, Addison
Wesley, 1994.
2. G. R. Wright. TCP/IP Illustrated, Volume 2: The Implementation, Addison
Wesley,1995.
3. W. R. Stevens. TCP/IP Illustrated, Volume 3: TCP for Transactions, HTTP,
NNTP, andthe Unix Domain Protocols, Addison Wesley, 1996.
4. R. Handel, M. N. Huber, and S. Schroeder. ATM Networks: Concepts,
Protocols,Applications, Addison Wesley, 1998.
5. W. Stallings. Cryptography and Network Security: Principles and Practice,
2nd Edition,Prentice Hall, 1998.
6. C. E. Perkins, B. Woolf, and S. R. Alpert. Mobile IP: Design Principles
and Practices,Addison Wesley, 1997.
L T P C
3 0 0 3


CSE-523 Algorithm Analysis and Design
Algorithms Introduction:
Algorithm Design paradigms- motivation, concept of algorithmic efficiency,
run time analysis of algorithms, Asymptotic Notations.
Divide and Conquer approach:
Structure of divide-and-conquer algorithms: sets and disjoint sets: Union
and Find algorithms, quick sort, Finding the maximum an minimum, Quick
Sort, Merge sort, Heap and heap sort,.
Greedy Algorithms:
Optimal storage on tapes, Knapsack problem, Job sequencing with deadlines,
Minimum Spanning trees: Prim’s algorithm & Kruskal’s algorithm, Huffman
codes.
Graph Algorithms:
Representation of graphs, BFS, DFS, Topological sort, strongly connected
components; single source shortest paths: Bellmen-Ford algorithm,
Dijkstra’s algorithm; All pairs shortest path: The Warshall’s algorithm.
Dynamic programming: Overview, difference between dynamic programming and
divide and conquer, Matrix chain multiplication, Traveling salesman
Problem, longest Common sequence, 0/1 knapsack.
Backtracking: 8-Queen Problem, Sum of subsets, graph coloring, Hamiltonian
cycles.
Branch and bound: LC searching Bounding, FIFO branch and bound, LC branch
and bound application: 0/1 Knapsack problem, Traveling Salesman Problem
Computational Complexity: Complexity measures, Polynomial Vs nonpolynomial
time complexity; NP-hard and NP-complete classes, examples.

TEXT BOOKS
1. E.Horowitz And S.Sahni, Fundamentals Of Computer Algorithms, Galgotia.
2. T.H.Cormen, C.E. Leiserson, R.L. Rivest, Introduction To Algorithms,
The MIT Press,Cambridge.
REFERENCE BOOKS
1. A.V. Aho, J.E. Hopcroft And J.D. Ullman, The Design And Analysis Of
Computer Algorithms, Addison Wesley.
L T P C
3 0 0 3


CSE-El-1(a) Multimedia Technology
Introduction
Defining the scope of multimedia, Hypertext and Collaborative research, Multimedia
and personalised computing, Multimedia on the map, Emerging applications, The
challenges, The technology trends, Multimedia appliances, Hybrid Devices,
Designers perspective, industry perspective of the future, Key challenges ahead,
Technical, Regulatory, Social.Architectures and Issues for Distributed Multimedia
Systems,Distributed Multimedia systems, Synchronization, and QoS Architecture, The
role of Standards, A frame work for Multimedia systems.
Digital Audio Representation and Processing
Uses of Audio in Computer Applications, Psychoacoustics, Digital representation of
sound, transmission of digital sound, Digital Audio signal processing, Digital
music making, Speech recognition and generation, digital audio and the computers,
Video Technology - Raster Scanning Principles, Sensors for TV Cameras, Colour
Fundamentals, Colour Video, Video performance Measurements, Analog video
Artifacts, video equipments, World wide television standards.
Digital Video and Image Compression
Video compression techniques, standardization of Algorithm, The JPEG Image
Compression Standard, ITU-T Recommendations, The EPEG Motion Video Compression
Standard, DVI Technology.
Operating System Support for Continuous Media Applications
Limitation of Work station Operating system, New OS support.
Middleware System Services Architecture
Goals of Multimedia System services, Multimedia system services Architecture,
Media stream protocol.
Multimedia Devices, Presentation Services, and the User Interface
Client control of continuous multimedia, Device control, Temporal coordination and
composition, toolkits, hyper applications.
Multimedia File systems and Information Models
The case for multimedia information systems, The file system support for
continuous Media, Data models for multimedia and Hypermedia information, Contentbased
Retrieval of Unstructured Data.
Multimedia presentation and Authoring
Design paradigms and User interface, barriers to wide spread use, research trends.
Multimedia Services over the Public Networks
Requirements, Architecture, and protocols, Net work services, applications.
Multimedia Interchange
Quick time Movie File Format, QMFI, MHEG (Multimedia and Hypermedia Information
Encoding Expert Group), Format Function and representation, Track model and Object
model, Real Time Interchange.
Multimedia conferencing
Teleconferencing Systems, Requirements of Multimedia Communications, Shared
Application Architecture and embedded Distributed objects, Multimedia Conferencing
Architecture.
Multimedia Groupware
Computer and Video fusion approach to open shared wok place, High Definition
Television and desktop computing, HDTV standards, Knowledge based Multimedia
systems, Anatomy of an Intelligent Multimedia system.

Books and Referances
1. John F. Koegel Buford, Multimedia Systems, Pearson Education.
2. Nalin K. Sharda, Multimedia Information Networking, Prentice Hall.
L T P C
3 0 0 3


CSE-El-1(b) Data Mining
Introduction
Data mining – Data mining functionalities – kinds of patterns can be mined –
classification – major issues. Data warehouse – A multidimensional data
model – Data warehouse architecture – Data warehouse implementation – From
data warehouse to data mining
Data Pre-Processing
Data cleaning – Data Integration and Transformation – Data Reduction –
Discretization and concept hierarchy generation – Data mining primitives –
Data mining Task – A data mining query language - Architecture of Data
mining systems – Characterization and comparison
Association Rule Mining
Mining single dimensional Boolean association rules from transactional
databases – mining multilevel association rules from transaction databasesmining
multidimensional association rules from Relational databases and Data
warehouses – From association mining to correlation analysis – constraintbased
association mining
Classification and Prediction
Issues regarding classification and prediction – classification by decision
Tree Induction – Bayesian Classification – Classification by Back propagation
–classification based on concepts from association rule mining – other
classification methods – prediction – classifier accuracy
Applications and Trends in Data Mining
Data mining system products and Research prototypes – Additional themes on
Data mining – Social Impacts of Data Mining – Trends in Data mining –
Realization to data mining using SQL Server, Case studies in building
business environment, Application of data ware housing and Data mining in
Government, National Data ware houses and case studies.

Text Book
1. Jiawei Han and Michelien Kamber, Data Mining Concepts and Techniques,
Morgan Kaufmann.
Reference Book
1. Alex Berson and Stephen Smith, Data Warehousing, Data mining and OLAP,
McGraw Hill
L T P C
3 0 0 3


CSE-El-1(c) Computer Graphics
Introduction to Computer Graphics
Overview of Graphics Systems, Display Devices, Hard copy Devices. Interactive
Input Devices, Display Processors, The Graphical Kernel System, Output
Primitives, Line drawing algorithms, Circle Generation algorithms, Character
Generation.
Raster Scan Graphics
Line Drawing Algorithms, Circle Generation, General Function Rasterization,
Scan Conversion- Generation of the display, Image Compression, Polygon
Filling , Fundamentals of Antialiasing.
Two-Dimensional Geometric Transformation & Viewing
Basic Transformation, Translation, Rotation, Scaling, Other Transformation
Reflection, Shear, Transformation functions, Window to viewport co-ordinate
transformation, Clipping Operations, Point Clipping, Line Clipping, Polygon
Clipping.
Three- Dimensional Concepts & Object Representations
Three Dimensional Display Methods, Parallel Projection, Perspective
Projection, Translation, Rotation, Scaling, Composite Transformation, Three
dimensional Transformation function, Polygon Surfaces, Curved Lines and
surfaces, Bezier Curves and surfaces, B-Spline Curves and surfaces.
Graphics hardware
Display technology, random scan, raster scan display processing, input
devices for interaction.
Visible Lines and Visible Surfaces
Visual Realism, Hidden line and hidden surface removal : depth buffer
algorithm, geometric computations, scan line coherence algorithms, area
coherence algorithms, priority algorithm., shading and color models, Modeling
methods.
Rendering
A simple illumination model, Transparency, Refraction effects in transparent
materials, Simple Transparency Models, Z-Buffer Transparency, Shadows,
Texture.

Text Books
1. D.F. ROGERS, Procedural Elements for Computer Graphics, McGraw Hill.
2. HEARN and BAKER, Computer graphics, PHI
Reference Books
1. S. HARRINGTON, Computer Graphics - A programming approach, McGraw Hill.
2. D.F. ROGERS, Mathematical Elements for Computer Graphics, McGraw Hill.
L T P C
3 0 0 3


CSE-El-1(d) Object Oriented Software Modeling
Unified Modeling Language, (UML), Use case modeling , Methodologies for
objectoriented analysis and design (OOAD), Design patterns, CASE tool support
for OOAD and automatic code generation, Precise modeling ( using OCL-Object
Constraint Language) and analysis of software models, Model driven
architecture (MDA), Modeling language design meta modeling , UML Profiles,
Advanced Modeling topics: Aspect oriented modeling, Modeling non functional
properties, round-trip engineering, modelbased testing, open research
questions.
Books and references:
To be conveyed by the teacher
L T P C
3 0 0 3


CSE-El-1(e) Artificial Intelligence
Introduction
Introduction to AI, AI techniques, level of model ,criteria for success,
Turing test
Problems, Problem Spaces &Search
Defining problem as a space, search, production system, problem
characteristics, production system characteristics, issues in the design of
search programs.
Heuristics Search Strategies
Generate and test, Hill climbing, best first search(A*), problem
reduction(AO*), constraint satisfaction,Means Ends analysis.
Knowledge Representation Issues
Representations and mappings, Approaches to knowledge representation, The
frame problem, Semantic network, Frame representation.
Using Predicate Logic
Representing simple facts in logic, representing instance and is-a
relationship, Computable functions and predicates, Resolution, Natural
deduction.
Representing Knowledge Using Rules
Procedural Vs Declarative knowledge, Logic programming, Forward and Backward
searching, Matching knowledge representation.
Game Playing and Search
Introduction, Min-Max algorithm, Alpha-Beta cut off, Example of Games.
Intelligent Systems
Learning Model, Types of Learning, Components of an Expert System, categories
of Expert System, stages of Development of Expert System, Expert System
Development Tools., Overview of fuzzy systems, ANN, Swarm Intelligent systems

Text Books
1. N.J. NILSSON, Principles of artificial Intelligence, Narosa Publishing
House.
2. E. RICH AND KNIGHT, Artificial Intelligence, McGraw Hill International.
Reference Books
1. PETERSON, Artificial Intelligence, PHI Ltd.
2. R.FORSYTH, Expert systems, Principles and Case Studies, Chapman and Hill.
3. R. KELLER, Expert system Technology Development and Application, Yourdon
Press.
L T P C
3 0 0 3


CSE-El-1(f) Topics in Internet Technologies
Today the Internet is being used for myriad of applications – electronic
publishing, electronic commerce, distance education, collaborative working,
etc. This course intends to investigate the underlying principles and
practices that support these applications.
Introduction to computer networks; Content preparation – HTML, DHTML, VRML,
SGML, XML and other markup schemes; Images – compression, formats;
Audiocompression, formats; content Delivery, - protocols-HTTP and variants,
Internet servers, proxy servers; Search engines; Data on the web; Content
Display – browsers, plugins, helper applications; Interactivity – Java,
Active-X; Component technologies, Javabeans,
COBRA; Security. Electronic payment systems, Firewalls, Encryption,
Watermarks; Performance, Benchmarking the web.

Books, References, Websites
1. www.w3.org
2. www.ietf.org
3. www.omg.org
4. www.xml.org
5. www.microsoft.com/com
6. java.sun.com
7. Research papers
L T P C
3 0 0 3


CSE-El-1(g) Simulation and Modeling
Fundamentals
Definition and reasons for simulation, Continuous (time-oriented) and
discrete (event) systems, Modeling/programming simple deterministic
systems, Rates and system dynamics.
Concepts in Simulation
Stochastic variables; discrete vs continuous probability; algorithms
for generating random numbers, their comparison with respect to speed
and validity; continuous uniformly distributed random numbers; methods
for generating non-uniform distributions.
Building Simulation Programming Models
Arrival patterns, service times, and queue formation. Formulating
systems as events and entities (such as resources, queues, gates, and
linkages). Congestion in systems; arrival patterns; Poisson arrivals;
the exponential distribution; the coefficient of variation; service
times; normal distribution; queuing disciplines; Measures for Queues;
Analytic Solutions of Queuing Problems; Utilization as a Design
Factor; Other factors like grade of service.
Discrete Event System Simulation
Discrete events; representation of time; queues and servers;
generation of arrival patterns; resource seizing; departures
simulation of a telephone system and computer networks; simulating
components of an operating system; delayed calls; modeling policies;
priority queues; tasks; gathering statistics; counters and summary
statistics; measuring utilization and occupancy; recording
distributions and transit times.
Introduction to a Simulation Languages
Simulation in C++, GPSS, Simulations Packages, Trends in simulation
Software. SIMSCRIPT programs; SIMSCRIPT system concepts; organization
of a SIMSCRIPT program; blocks, names, and labels; SIMSCRIPT
statements; entities, events, and activities; defining the system;
defining the system model; referencing variables; the procedural
structures; arrival event; timing routine; disconnect event; closing
event; execution, debugging and validation; interpreting outputs and
system optimization via modification.

Books and Referances
1. Simulation Modeling and Analysis, Law and Kelton, McGraw-Hill, Third
Edition 2000.
2. Discrete-Event System Simulation, (Second Edition), Banks,
Prentice-Hall, 1996.
3. Getting Started in GPSS, Dunning, Engineering Press, San Jose, CA,
1985.
4. Simulation Model Design and Execution, Fishwick, Prentice-Hall,
1995.
L T P C
3 0 0 3


CSE-El-2(a) Computer Vision and Image Processing
Introduction
Digital image representation, Fundamental steps in image processing, Elements
of Digital Image processing systems, Elements of visual perception, Image
model, Sampling and quantization, Relationship between pixels, Imaging
geometry.
Image Enhancement
Enhancement by point processing, Sample intensity transformation, Histogram
processing, Image subtraction, Image averaging, Spatial filtering, Smoothing
filters, Sharpening filters, Frequency domain: Low-Pass, High-Pass,
Homomorphic filtering.
Image Compression
Coding redundancy, Inter-pixel redundancy, fidelity criteria, Image
compression models, Error-free compression, Variable length coding, Bit-plane
coding, Loss-less predicative coding, Lossy compression, Image compression
standards, Fractal Compression, Real-Time image transmission, JPEG and MPEG.
Image Segmentation
Detection of discontinuities, Edge linking and boundary detection,
Thresholding, Region oriented segmentation, Use of motion in segmentation,
Spatial techniques, Frequency domain techniques.
Spatial Operations and Transformations
Spatially dependent transform template and convolution, Window operations, 2-
Dimensional geometric transformations.
Pattern Recognition
Classification and description, Structure of a pattern recognition system,
feature extraction, Classifiers, Decision regions and boundaries,
discriminent functions, Supervised and Unsupervised learning, PR-Approaches
statistics, syntactic and neural.
Statistical Pattern Recognition
Statistical PR, Classifier Gaussian Model, Classifier performance, Risk and
error, Maximum likelihood estimation, Bayessian parameter estimation
approach, Clustering for unsupervised learning and classifiers.

Text Books
1. R. GONZALEZ and R. E. WOOD, Digital Image Processing, Prentice Hall of
India.
2. ANDRIAN LOW, Introductory Computer Vision and Image Procession, McGraw
Hill CO.
3. ROBERT SCHOLKOFF and JOHN WILLEY & SONS, Pattern Recognition-Statistical,
Structural and neural approach.
Reference Books
1. W.K. PRATT, Digital Image Processing, McGraw Hill.
2. A. K. JAIN, Fundamentals of Image Processing.
L T P C
3 0 0 3


CSE-El-2(b) Distributed Computing Systems
Introduction to Distributed System
Goals, Hardware concepts, Software concepts, and Client-Server model.
Examples of distributed systems.
Communication
Layered protocols, Remote procedures call, Remote object invocation, Messageoriented
communication, Stream-oriented communication.
Processes
Threads, Clients, Servers, Code Migration, Software agent.
Naming
Naming entities, Locating mobile entities, Removing un-referenced entities.
Synchronization
Clock synchronization, Logical clocks, Global state, Election algorithms,
Mutual exclusion, Distributed transactions.
Consistency and Replication
Introduction, Data centric consistency models, Client centric consistency
models, Distribution protocols, Consistency protocols.
Fault Tolerance
Introduction, Process resilience, Reliable client server communication,
Reliable group communication. Distributed commit, Recovery.
Security
Introduction, Secure channels, Access control, Security management.
Distributed File System
Sun network file system, CODA files system.
Case Study
CORBA, Distributed COM, Globe, Comparison of CORBA, DCOM, and Globe.

Text Books
1. G. Coulouris, J. Dollimore, and T. Kindberg, Distributed Systems: Concepts
and Design, Pearson Education
2. Taunenbaum, Distributed Systems: Principles and Paradigms, PHI.
Reference Book
1. M. Singhal & N. Shivaratri, Advanced Concepts in Operating Systems, TMH.
L T P C
3 0 0 3


CSE-El-2(c) Mobile Computing
Introduction :Challenges in mobile computing, coping with uncertainties,
resource poorness, bandwidth, etc. Cellular architecture, co-channel
interference, frequency reuse, capacity increase by cell splitting.
Medium Access Control : Motivation for a specialized MAC: Hidden and Exposed
terminals. Near and Far terminals; SDMA, FDMA, TDMA: Fixed TDM, Classical
Aloha, Slotted Aloha, Carrier sense multiple access, Demand assigned multiple
access, PRMA packet reservation multiple access, Reservation TDMA, Multiple
access with collision avoidance, Polling, Inhibit sense multiple access;
CDMA: Spread Aloha multiple access.
Telecommunication Systems : GSM: Mobile services, System architecture, Radio
interface, Protocols, Localization And Calling, Handover, Security, New data
services; DECT: System architecture, Protocol architecture; TETRA, UMTS and
IMT-2000: UMTS Basic architecture, UTRA FDD mode, UTRA TDD mode .
Wireless LAN : Infrared vs. Radio transmission, Infrastructure and Ad hoc
Networks, IEEE 802.11: System architecture, Protocol architecture, Physical
layer, Medium access control layer, MAC management, Future development;
HIPERLAN: Protocol architecture, Physical layer, Channel access control.
Sublayer, Medium access control Sublayer, Information bases And Networking;
Bluetooth: User scenarios, Physical layer, MAC layer, Networking. Security,
Link management.
Mobile Network Layer : Mobile IP: Goals, assumptions and requirements,
Entities and Terminology, IP packet delivery, Agent advertisement and
discovery, Registration, Tunneling and Encapsulation , Optimizations, Reverse
tunneling, Ipv6; Dynamic host configuration protocol, Ad hoc networks:
Routing .
Mobile Transport Layer : Traditional TCP: Congestion control, Slow start,
Fast retransmit/fast recovery, Implications on mobility; Indirect TCP,
Snooping TCP, Mobile TCP, Fast retransmit/fast recovery, Transmission/timeout
freezing, Selective retransmission, Transaction oriented TCP .
Data Dissemination and Management: Challenges, Data dissemination, Mobile
data replication, Mobile data caching, Mobile cache maintenance, mobile web
caching, caching in ad hoc networks.
Context Aware Computing: Ubiquitous computing, concept of context, context
aware computing and applications, middleware support.
Mobile Middleware: Service discovery, adaptation, mobile agents.
Wireless security: Traditional security issues, mobile and wireless security
issues, Problems in ad hoc networks.

Text Books
1. Frank Adelstein, S.K.S. Gupta, Golden G. Richard III and Loren Schwiebert,
Fundamentals of Mobile and Pervasive Computing, McGraw-Hill Professional.
2. D.P. Agrawal and Q.-A. Zeng, Introduction to Wireless and Mobile Systems,
Thomson Brooks/Cole.
Reference Books
1. K. Pahlavan and P. Krishnamurthy, Principles of Wireless Networks,
Prentice Hall.
2. Siva Ram Murthy and B.S. Manoj, Ad Hoc Wireless Networks: Architectures
and Protocols, Pearson.
L T P C
3 0 0 3


CSE–EI–2(d) Soft Computing
Neural Networks
History, overview of biological Neuro-system, Mathematical Models of Neurons,
ANN architecture, Learning rules, Learning Paradigms-Supervised, Unsupervised
and reinforcement Learning, ANN training Algorithms-perceptions, Training
rules, Delta, Back Propagation Algorithm, Multilayer Perceptron Model,
Hopfield Networks, Associative Memories, Applications of Artificial Neural
Networks.
Fuzzy Logic:
Introduction to Fuzzy Logic, Classical and Fuzzy Sets: Overview of Classical
Sets, Membership Function, Fuzzy rule generation. Operations on Fuzzy Sets:
Compliment, Intersections, Unions, Combinations of Operations, Aggregation
Operations. Fuzzy Arithmetic: Fuzzy Numbers, Linguistic Variables, Arithmetic
Operations on Intervals & Numbers, Lattice of Fuzzy Numbers, Fuzzy Equations.
Fuzzy Logic: Classical Logic, Multivalued Logics, Fuzzy Propositions, Fuzzy
Qualifiers, Linguistic Hedges.
Uncertainty based Information:
Information & Uncertainty, Nonspecificity of Fuzzy & Crisp Sets, Fuzziness of
Fuzzy Sets.
Introduction of Neuro-Fuzzy Systems: Architecture of Neuro Fuzzy Networks.
Application of Fuzzy Logic: Medicine, Economics etc.
Genetic Algorithm: An Overview, GA in problem solving, Implementation of GA.
Swarm Intelligence: Ant Colony system, PSO system.

Text Books
1. Anderson J.A., “An Introduction to Neural Networks”, PHI,
2. Hertz J. Krogh, R.G. Palmer, “Introduction to the Theory of Neural
Computation”, Addison-Wesley,
3. G.J. Klir & B. Yuan, “Fuzzy Sets & Fuzzy Logic”, PHI,
4. Melanie Mitchell , “An Introduction to Genetic Algorithm”, PHI,
Reference Book
1. Freeman J.A. & D.M. Skapura, “Neural Networks: Algorithms, Applications
and Programming Techniques”, Addison Wesley
L T P C
3 0 0 3


CSE-El-2(e) Network Programming
Inter-process communication, socket programming, pseudo terminals; TCP/IP
stack;
Application Protocols, with example implementations: SMTP, HTTP, FTP;
Algorithms and protocols for routing and forwarding; Network information
discovery and retrieval, web servers, robots and search engines, security
issues, firewalls and encryption; XML technologies.

Books
1. Stevens, Unix Network Programming, Vol. 1. Second edition, Prentice-Hall,
1999
2. Stevens, Unix Network Programming, Vol. 2, Second edition, Prentice-Hall,
1999
3. Current on-line literature
L T P C
3 0 0 3


CSE-El-2(f) Cryptography/Computer Security
Introduction
Introduction to OSI Network Security Architectures, Services, Mechanisms and
Attacks, Classical Encryption Techniques, Symmetric cipher model,
Substitution techniques, Transposition techniques, Rotor Machines,
Steganography.
Block Cipher and Data Encryption standards
Classical Encryption Techniques, Introduction to DES, differential and Linear
Cryptanalysis, Block Cipher Cryptography, Triple DES Algorithm, International
Data Encryption Algorithm (IDEA), Blowfish Algorithm, RC-x Algorithms, CAST-x
Algorithms, Symmetric Block Cipher Schemes, Encryption Function Placement and
Confidentiality problems.
Public-Key Cryptography and Message Authentication
The Key Distribution Problem, Random Number Generation, The Public-Key
Cryptosystems, The RSA Algorithm, The Key Management riddle, The Diffie-
Hellman Key Exchange, Elliptic Curve Cryptography. Introduction to Message
Authentication, requirements and functions, Message Authentication Codes,
Hash Functions, their Security and other considerations
Authentication Applications
The Message Digest (MD5) Algorithm, The Secure Hash Algorithm (SHA-1),
RIPEMD-x and HMAC fundamentals, Digital Signature basics, Authentication
Protocols, The Digital Signature Standard, Introduction to the Kerberos
Authentication scheme, The X.319 Directory Authentication scheme.
Electronic Mail and IP Security
Fundamentals of the E-mail security, PGP, The S/MIME Standard, The IP
Security Framework, The Authentication Header scheme, The ESP scheme, Hybrid
schemes and Key Management problems
Web Security and network management
Web-based Security frameworks, requirements, The SSL and TLS frameworks, A
review of Web-security solutions, Introduction to Intrusion Detection, On the
Virus, Worm and similar security threats, Introduction to Firewall Systems,
On the Trusted Systems, A Case-study / Design of an Internet Security System.

Books and References
1. William Stallings, Cryptography and Network Security: Principles and
Practice, Third Edition, Pearson Education, New Delhi, 2001.
2. C. Kaufman, R. Perlman and M. Spenser, Network Security, Second Edition,
Prentice-Hall, Englewood Cliffs, 2002.
3. S. Bellovin and W. Chesvick, Internet Security and Firewalls, Second
Edition, Addison-Wesley, Reading, 1998
L T P C
3 0 0 3


CSE-El-2(g) Electronic Commerce
Electronic Commerce-Frame work, anatomy of E-Commerce applications, ECommerce
Consumer applications, E-Commerce organization applications.
Consumer Oriented Electronic commerce - Mercantile Process models.
Electronic payment systems - Digital Token-Based, Smart Cards, Credit Cards,
Risks in Electronic Payment systems.
Inter Organizational Commerce - EDI, EDI Implementation, Value added
networks.
Intra Organizational Commerce - work Flow, Automation Customization and
internal Commerce, Supply chain Management.
Corporate Digital Library - Document Library, digital Document types,
corporate Data Warehouses. Advertising and Marketing - Information based
marketing, Advertising on Internet, on-line marketing process, market
research.
Consumer Search and Resource Discovery - Information search and Retrieval,
Commerce Catalogues, Information Filtering.
Multimedia - key multimedia concepts, Digital Video and electronic Commerce,
Desktop video processings, Desktop video conferencing.

Text Books
1. Frontiers of electronic commerce – Kalakata, Whinston, Pearson.
Reference Books
1. E-Commerce fundamentals and applications Hendry Chan, Raymond Lee, Tharam
Dillon, Ellizabeth Chang, John Wiley.
2. E-Commerce, S.Jaiswal – Galgotia.
3. E-Commerce, Efrain Turbon, Jae Lee, David King, H.Michael Chang.
4. Electronic Commerce – Gary P.Schneider – Thomson.
5. E-Commerce – Business, Technology, Society, Kenneth C.Taudon, Carol
Guyerico Traver.
L T P C
3 0 0 3


CSE- El-2(h) Topics in Database Systems
Overview of database management
Traditional database models, relational model, relational languages, SQL and
Embedded SQL.
Conceptual database design
Conceptual database design process, ER model, generalization, specialization
and aggregation, conventions, ternary and higher order relationships and
concept of cardinalities in such relationships.
Logical database design
Relational Database design and update anomalies, structures, guidelines for
relational schema, normalization, dependencies, transformation of entity
relationship model into relational schema.
Physical database design
Database performance, tables using operating system files, multi-table files
and table fragmentation clustered table organization, page organization,
indexing, B-Tree, B+ Tree, B-tree organizations, ISAM organization, clustered
and non clustered indexes, hashing, static and dynamic hashing, buffer
management, physical design features .
Query processing
Query processing stages, query Interpretation, query resource utilization,
query execution, estimation of query processing cost, table scants, simple
index access, fill factor, multiple index access, methods for join tables,
(nested loop, merge join, hybrid join, multiple table join); structure of
query optimizer, examples from one or two actual contemporary database
management software.
Transaction Processing
Types of Failures of applications, transaction, properties, schedules and
recoverability, serializability of schedules, levels of transaction,
consistency, deadlocks, transaction performance, bench marking, transaction
in contemporary database management systems.
Crash Recovery
Failure classification, recovery concepts based on deferred update, recovery
concepts based on intermediate update, shadow paging, check points, on-line
backup during database updates, case study from contemporary database
management software.
Concurrency Control
Techniques based on time stamp ordering, multi-version techniques, optimistic
techniques, multiple granularity, case studies Distributed Databases,
distributed database concepts, architecture and design of distributed
database, query processing, recovery, federated databases, asynchronous
replication concepts, distributed database features in contemporary database
management systems.
Client/Server Databases
Client/Server concepts, approach, Client/Server environments,
characterization of Client/Server computing, application partitioning, the
two-layer, and the Three layer architecture, Client/Server communication,
APIs in Client/Server computing, middleware technology, application
developments, design concepts, Client application development tools, and
database servers.
Integrity, Security and Repositories
Needs for database integrity, integrity constraints, non-procedural integrity
constraints, integrity constraints specifications in SQL, introduction to
database security mechanism, security specification in SQL, system
catalogues.
Emerging Database Trends
Object-Oriented databases, active databases, deductive databases, concept of
next generation databases, data warehouses and executive information system,
data mining, parallel query processing: multi-media databases.

Text Books
1. H Korth, A Silberschatz, “Database System Concepts”, McGraw-Hill
2. R Elmasri, S Navathe, “Fundamentals of database Systems”, Benjamin
Cummings
3. Bipin Desai, “An introduction to database Systems”, Galgotra Publications,
West Publishing
Reference Books
1. Peter Rob, Carlos Coronel, “Database Design and Implementation and
Management”, Wadsworth Publishing Company
2. C J Date, “An introduction to Database Systems, Volume I”, Addison-Wesley.
L T P C
3 0 0 3


CSE-El-2(i) Multimedia Information Systems
Multimedia Information, Delay-sensitive and Time-based Media data Modeling,
Multimedia storage and retrieval techniques, Multimedia Communications:
Synchronization, delay compensation, QoS negotiation protocols, Architectures
and Issues for Distributed Multimedia Systems, Prototype Multimedia systems:
Video-on-Demand, Video conferencing.

Books:
1. Grosky WI, Jain R, and Mehrotra R, The Hand Book of Multimedia Information
Management, Prentice-Hall1997.
2. Koegel Buford JF, Multimedia Systems, Addison-Wesley, 1994.
3. Relevant Research Papers from the Journals/Conferences.
L T P C
3 0 0 3


CSE-El-2(j) Fault Tolerant Computing
Redundancy techniques, `Fault Coverage, Computational integrity, Fault
detection methods Fault identification algorithms, Exception handling, Damage
assessment and confinement, System diagnosability, Diagnosis algorithms,
System recovery and distribution, Reconfiguration techniques, Repairable
Systems, algorithms based fault tolerance testing techniques, Test
scheduling, Test pattern generation, Fault tolerant computer communication
networks, Fault tolerance of Software.
L T P C
3 0 0 3


CSE-El-2(k) Real Time Systems
Introduction
Definition, Typical Real Time Applications: Digital Control, High Level
Controls, Signal Processing etc., Release Times, Deadlines, and Timing
Constraints, Hard Real Time Systems and Soft Real Time Systems, Reference
Models for Real Time Systems: Processors and Resources, Temporal Parameters
of Real Time Workload, Periodic Task Model, Precedence Constraints and Data
Dependency.
Real Time Scheduling
Common Approaches to Real Time Scheduling: Clock Driven Approach, Weighted
Round Robin Approach, Priority Driven Approach, Dynamic Versus Static
Systems, Optimality of Effective-Deadline-First (EDF) and Least-Slack-Time-
First (LST) Algorithms, Offline Versus Online Scheduling, Scheduling
Aperiodic and Sporadic jobs in Priority Driven and Clock Driven Systems.
Resources Access Control
Effect of Resource Contention and Resource Access Control (RAC),
Nonpreemptive Critical Sections, Basic Priority-Inheritance and Priority-
Ceiling Protocols, Stack Based Priority-Ceiling Protocol, Use of Priority-
Ceiling Protocol in Dynamic Priority Systems, Preemption Ceiling Protocol,
Access Control in Multiple-Unit Resources, Controlling Concurrent Accesses to
Data Objects.
Multiprocessor System Environment
Multiprocessor and Distributed System Model, Multiprocessor Priority-Ceiling
Protocol, Schedulability of Fixed-Priority End-to-End Periodic Tasks,
Scheduling Algorithms for End-to-End Periodic Tasks, End-to-End Tasks in
Heterogeneous Systems, Predictability and Validation of Dynamic
Multiprocessor Systems, Scheduling of Tasks with Temporal Distance
Constraints.
Real Time Communication
Model of Real Time Communication, Priority-Based Service and Weighted Round-
Robin Service Disciplines for Switched Networks, Medium Access Control
Protocols for Broadcast Networks, Internet and Resource Reservation
Protocols, Real Time Protocols, Communication in Multicomputer System, An
Overview of Real Time Operating Systems.

Text Books
1. Real Time Systems by Jane W. S. Liu, Pearson Education Publication.
2. Real-Time Systems: Scheduling, Analysis, and Verification by Prof. Albert
M. K. Cheng, John Wiley and Sons Publications.
L T P C
3 0 0 3


CSE-E1-2(l) Software Projects Management.
Managing Software Projects, Processes and Project Management, Project
Management and the CMM, Overview of the CMM, KPAs for Project Management, The
Project Management Process.
Process Planning. The Standard Process, Process Tailoring, Tailoring for
Short Duration Projects, Requirement Change Management, The Change Management
Process.
Effort Estimation and Scheduling. Estimation and Scheduling Concepts, Effort
Estimation Models. Estimating Schedule, Effort Estimation, the Use Case
Points Approach. Effectiveness of the Overall Approach, Effort Estimate of
the ACIC Project, Scheduling, Overall Scheduling, The Effectiveness of the
Approach,Detailed Scheduling.
Quality Planning, Quality Concepts, Procedural Approach to Quality
Management, Quantitative Approaches to Quality Management, Quantitative
Quality Management Planning, Setting the Quality Goal, Estimating Defects for
Other Stages, Quality Process Planning, Defect Prevention Planning.
Risk Management. Concepts of Risks and Risk Management, Risk Assessment, Risk
Identification, Risk Prioritization, Risk Control, Risk Management Planning,
Risk Monitoring and Tracking.
Measurement and Tracking Planning, Concepts in Measurement, Metrics and
Measurements, process Monitoring through Statistical Process Control,
Measurements, Collecting Effort Data, Logging and Tracking Defects, Measuring
Schedule, Measuring Size, Project Tracking.
The Project Management Plan. Team Management, Team Structure, Communication,
Team development, Customer Communication and Issue Resolution, The Structure
of the Project management Plan.
Configuration Management, Concepts in Configuration Management, The
configuration management Process, planning and Setting Up Configuration
Management,
Perform Configuration Control, Status Monitoring and Audits.
Reviews. The Review Process, Planning, Overview and Preparation, Group Review
Meeting, Rework and Follow-up, one person Review, Guidelines for Reviews in
Projects.
Project Monitoring and Control, Project Tracking, Activities Tracking, Defect
Tracking, Issues Status Reports, Milestone analysis.
Project Closure. Project Closure Analysis, The Role of Closure Analysis,
Performing Closure Analysis, Closure Analysis Report.

Books:
1. Software Project Management in Practice By Pankaj Jalote, Published by
Addison Wesley Professional.
L T P C
3 0 0 3


CSE-El-2(m) Natural Language Processing
A computational framework for natural language. A framework such as LEG, GPSG
or panlm in some depth. Partial description of English or an Indian language
in the frame work, lexicon, algorithms and data structures for implementation
of the framework.
Introduction to semantics and knowledge representation. Some applications
like machine translation, database interface.

Books and References:
1. Akshar Bharati, Vineet Chaitanya, and Rajeev Sangal, NLP:A Paninian
Perspective, Prentice Hall, New Delhi, 1994.
2. T.winograd. Language as a cognitive Process, Addison-Wesley, 1983.
L T P C
3 0 0 3


CSE-El-2(n) CAD of Digital Systems
Introduction
Hierarchical and Structural Design , Analog stages in CAD of Digital
Systems, Y-Chart-Levels and Domains of description, Design flow and
Synthesis of Taxonomy, Single Component Tools, Layout Editor, Symbolic Layout
Editor, Semi-custom design approach, Schematic Editor approach, Module
generator to generate specific layout.
Design Using VHDL
Existing hardware description languages, Design in VHDL, Design description,
Description of component using sequence detector, Basic concepts in VHDL,
Signals and variables, Timing and Control, Concurrent and sequential
assignment, Library support, Block structure, structural description,
Subprogram, type declaration and usage.
High Level Synthesis
Introduction to design space and constraints, High level synthesis tasks,
Internal representation, Synthesis of the register transfer level structure,
Scheduling: Resource constrained scheduling, Force directed scheduling, Path
based scheduling, Scheduling for pipelining design, Allocation and binding,
General algorithm: Clique-partitioning, Left-edge Algorithm, Bipartite Graph,
Weighted bipartite Graph, Binding after allocation, Bus allocation and
binding, Allocation after Scheduling, Comparison of various schemes.
Register Level Synthesis
Data path synthesis, Optimization strategies, Retiming and Resynthesis,
Resource allocation and assignment, Control Synthesis, State assignment for
controllers, State assignments for single PLA Controllers.
Logic Level Synthesis
Preliminaries and definitions, Two-level minimization Algorithm, ESPRESSO,
Multi level logic minimization method, Sequential circuits and state
assignments, Multi-level logic and state assignment, Mustang Algorithm.
Technology Mapping
Abstraction of technology, Tree, DAG, Look up tables.
Field Programmable Gate Arrays (FPGA)
FPGA, CAD system for FPGA, classification of FPGA, Programming technologies,
Static RAM, Anti-fuse, EPROM, Advantages and disadvantages of FPGA,
Applications of FPGA.

Text Books
1. P. Michel, U. Lauther, P. Duzy , The Synthesis Approach to digital System
design, Kluwer Academic
2. Z. Navabi, VHDL –Analysis & Modelling of Digital systems, McGraw Hill.
Reference Books
1. D. Gajski, N. Dutt, A. Wu, S. Lin, High Level Syntheis, Kluwer Academic
Publisher.
2. J.Bhaskar, “ A VHDL Primer”, Addison Wesley
3. Doglas Perry, “VHDL”, MGH
L T P C
3 0 0 3


CSE–EI–2(O) Algorithms in Coding
Groups, rings, vector spaces, Galois fields, polynomial rings,Channel models,
Block and convolutional codes, algebraic and finite state descriptions.
Linear and nonlinear codes, BCH, Reed-Solomon and Goppa codes. The Berlekamp-
Massey and Fuelid decoding algorithms. Decoding algorithms for convolutional
codes, the Viterbi, Stael and Fano algorithms. Decoding beyond the minimum
distance diameter. Combinatorial descriptions of block and convolutional
codes. Algorithms for the construcion of minimal and tail biting trellises.
Soft decision decoding algorithms. Suboptimal decoding algorithms. Iterative
decoding algorithms, turbo decoding. The two way algorithm
L T P C
3 0 0 3


CSE-EI-2(p) Intelligent Agents
Introduction
Definitions of agency; properties of agents; agents and objects; comparison
between agents and other softwares, agents and expert systems; agents and
distributed systems; typical application areas for agent systems.
Agent Architectures
Reactive/deliberative/hybrid agents; BDI and practical reasoning agents;
deductive reasoning agents, Rational Reasoning: decision-theoretic/gametheoretic
foundations; bounded rationality; means-ends reasoning. the design
of intelligent agents - reasoning agents (eg AgentO), agents as reactive
systems (eg subsumption architecture); hybrid agents (eg PRS); layered agents
(eg Interrap) a contemporary (Java-based) framework for programming agents
(eg the Jack language, the JAM! system).
Multi-Agent Systems
Designing multi agent society, Classifying multi-agent interactions -
cooperative versus non-cooperative; zero-sum and other interactions;
cooperation,- the Prisoner's dilema and Axelrod's experiments;
Interactions between self-interested agents
Auctions & voting systems: negotiation; Interactions between benevolent
agents: cooperative distributed problem solving (CDPS), partial global
planning; coherence and coordination; Interaction languages and protocols:
speech acts, KQML/KIF, the FIPA framework.
Agent coordination
Distributed problem solving, planning and task sharing; teamwork and
coalition formation; negotiation (game-theoretic/heuristic/argumentationbased);
matchmaking and brokering. distributed search/distributed constraint
satisfaction; multiagent learning; agent-oriented software engineering;
trust/norms/institutions, organisational approaches.

Text Books
1. Michael J. Wooldridge. An Introduction to Multiagent Systems, John Wiley
and Sons.
2. G. Weiss (ed.). Multiagent Systems: A Modern Approach to Distributed
Artificial Intelligence, MIT Press.
Reference Books
1. Singh, M. and Huhns, M., “Readings in Agents”, Morgan Kaufmann.
2. Ferber, J., “Multi-Agent Systems”, Addison Wesley.
L T P C
3 0 0 3


CSE-El-3(a) Logic and Functional Programming
ML (CAML dialect); Lambda-calculus and combinators; abstraction and higher
order functions; lazy and eager evaluation; types, polymorphism and type
inference; Equations and pattern matching; SECD machine; denotational
semantics of functional languages; implementing functional languages.
Introduction CAD of Digital System, Analog stages in CAD of Digital Systems,
Y-Chart-Levels and Domains of description, Design flow and Synthesis of
Taxonomy, Single Component Tools, Layout Editor, Symbolic Layout Editor,
Semi-custom design approach, Schematic Editor approach, Module generator to
generate specific layout.
Design Using VHLD
Existing hardware description languages, Design in VHLD, Design description,
Description of component using sequence detector, Basic concepts in VHLD,
Signals and variables, Timing and Control, Concurrent and sequential
assignment, Library support, Block structure, structural description,
Subprogram, type declaration and usage.
High Level Synthesis
Introduction to design space and constraints, High level synthesis tasks,
Internal representation, Synthesis of the register transfer level structure,
Scheduling: Resource constrained scheduling, Force directed scheduling, Path
based scheduling, Scheduling for pipelining design, Allocation and binding,
General algorithm: Clique-partitioning, Leftedge Algorithm, Bipartite Graph,
Weighted bipartite Graph, Binding after allocation, Bus allocation and
binding, Allocation after Scheduling, Comparison of various schemes.
Register Level Synthesis
Data path synthesis, Optimization strategies, Retiming and Resynthesis,
Resource allocation and assignment, Control Synthesis, State assignment for
controllers, State assignments for single PLA Controllers.
Logic Level Synthesis Preliminaries and definitions, Two-level minimization
Algorithm, ESPRESSO, Multi level logic minimization method, Sequential
circuits and state assignments, Multi-level logic and state assignment,
Mustang Algorithm.
Technology Mapping
Abstraction of technology, Tree, DAG, Look up tables.
Field Programmable Gate Arrays (Fpga)
FPGA, CAD system for FPGA, classification of FPGA, Programming technologies,
Static RAM, Anti-fuse, EPROM, Advantages and disadvantages of FPGA,
Aplications of FPGA.

TEXT BOOKS
1. P. Michel, U. Lauther, P. Duzy , The Synthesis Approach to digital System
design, Kluwer Academic Publisher.
2. Z. Navabi, VHLD –Analysis & Modelling of Digital systems, McGraw Hill.
REFERENCE BOOKS
1. D. Gajski, N. Dutt, A. Wu, S. Lin, High Level Syntheis, Kluwer Academic
Publisher.
L T P C
3 0 0 3


CSE-EI-3(b) Machine Translation
Overview of Natural Language Processing, Syntax,Semantics,Context and world
of knowledge, Strategies for machine translation, Direct, Transfer and
Interlingua approaches; Rule-based, Example based on Hybrid Methodologies;
Construction of lexical database, Text generation, machine –aided
translation, user interfaces; Example of English Hindi and Hindi English
Machine Translation
Books and References :
To be Announced by the instructor.
L T P C
3 0 0 3


CSE-EI-3(c) Knowledge Discovery
This course will explore different machine learning, , knowledge discovery
and data mining approaches and techniques: Concepts Learning, Decision, Tree
Learning, Clustering and instance based learning, Rule induction and
inductive learning.
Bayesian networks and causality, Neural networks, Genetic algorithms,
Reinforcement learning, Analytical learning.

Books & References:
1. Heikki Mannila, Padhraic Smyth, Dvaid Hand. Principles of Data Mining, MIT
2. Press 2001
3. T Hastie, R Tibshirani, J H Friedman. The Elements of Statistical
Learning: Data
4. Mining Inference, and Prediction, Springer Verlag, 2001
5. Jensen, F. An Introduction to Bayesian Networks. UCL Press, London 1996
6. Pearl, J.. Probabilistic Reasoning in Intelligent Systems: Networks of
Plausible
L T P C
3 0 0 3


CSE-El-3(d) Software Architecture
Software process and the role of modeling and analysis, software architecture
and software design, software Modeling and Analysis; analysis modeling and
best practices, traditional best practice diagrams such as DFD and ERDs, UML,
diagrams and UML analysis modeling, analysis case studies, analysis tools,
analysis patterns.
Software Architecture: architectural styles, architectural patterns, analysis
of architectures, formal descriptions of software architectures,
architectural description languages and tools, scalability and
interoperability issues, web application architectures, case studies.
Software design: design best practices, design patterns, extreme programming,
design case studies, component technology, object oriented frameworks,
distributed objects, object request brokers, case studies.

Books and References:
1. Booch,G.Rumbough, J., Jacobson, I., The Unified Modeling Language User
Guide,
2. Addison-Wesley, 1999.
3. Gamma,E.,Helm, R.Johnson,R.Vissides, J., Design Patterns, Elements of
Reusable
4. Object-oriented Software, Addison-Wesley, 1995.
5. Frank Buschmann et.al.Pattern Oriented Software Architecture, Volume 1: A
System of Patterns, John Wiley and Sons, 1996.
6. Shaw, M.,and Garlan, D., Software Architecture: Perspectives on an
Emerging Discipline, Prentice Hall, 1996.
7. Len Bass et.al.Software Architecture in Practice. Addison Wesley, 1998
L T P C
3 0 0 3


CSE-El-3(e) Embedded Systems
Introduction to Embedded Systems
Architecture of Embedded Systems - Hardware Architecture, Software
Architecture, Communication Software, Development/Testing Tools
Programming for Embedded Systems
The Process of Embedded System Development - Design Trade offs, Hardware
Software co-design, Implementation, Integration and Testing Hardware
Platforms, Communication Interfaces
Embedded/Real-time Operating Systems Concepts - Representative Embedded
Systems, Programming in RT-Linux Embedded Database Application Mobile Java
Applications Embedded Software Development on 8051 Micro-controller Platform
DSP-based Embedded Systems - Implementation of Embedded Systems with VHDL,
FPGA and CPLD Embedded Systems Applications using Strong ARM Platform

Text Books
1. Embedded/Real-time Systems: Concepts, Design and Programming – Dr.
K.V.K.K.Prasad, Dreamtech press.
2. Proramming for Embedded Systems – Dreamtech Software team, Willey -
dreamtech
L T P C
3 0 0 3


CSE-El-3(f) Natural Language Processing Semantics
Introduction to semantics, semantic interpretation, knowledge representation,
contest and world knowledge, plans and actions, discourse structure, belief
models, speech acts, Selected applications.

Books and References:
1. G.Chirchia and S.McConnell Ginet.Meaning and Grammer, MIT Press, 1990.
2. James Allen. Natural language Understanding, Benjamin-Cummins, 1987.
L T P C
3 0 0 3


CSE-El-3(g) Advanced Topic in Algorithms and Data Structure
The course intends to deal with advanced aspects of algorithms: design and
analysis including data structures, analysis and lower bound proofs,
amortized complexity of algorithms.
Fibonacci heaps and self-adjusting search trees, Splay trees, linking and
cutting trees.
State-of-the-art algorithms for minimum spanning trees, shorted path problem
Network flows- preflow-push algorithms, max flow algorithm and sealing
algorithms. Matching, blossoms, Micali-Vazirani algorithms. Lower bound thory
for parallel computations.

Books and Reference
1. R.E.Tarjan. Data structures and Network Algorithms, SHAM Press, 1983
2. J.H.Hastad. Computational Limitations for Small Depth Circuits, MIT Press,
3. 1987.
4. K.Melhorn.Data Structures and Algorithms, Vol.i:Sorting and Searching,
Springer Verlag.
5. K.Melhorn.Data Structures and Algorithms, Vol.3:Multi-dimensional
Searching and Computational Geometry, Springer Verlag, 1981.
6. Research papers.
L T P C
3 0 0 3


CSE-520(a) Database Management System
Basic concepts: database & database users, characteristics of the database,
database systems, concepts and architecture, date models, schemas &
instances, DBMS architecture & data independence, database languages &
interfaces, data modeling using the entity-relationship approach. Overview of
hierarchical, Network & Relational Data Base Management Systems.
Relational model, languages & systems: relational data model & relational
algebra: relational model concepts, relational model constraints, relational
algebra, SQL- a relational database language: date definition in SQL, view
and queries in SQL, specifying constraints and indexes in sql, a relational
database management systems, DB2. DB2 Architecture, Logical Data Structures
Physical Data Structure, Instances, Table Spaces, Types of Table spaces,
Internal Memory Structure, Background Processes, Data Types, Roles &
Privileges, Stored Procedures, User Defined Functions, Cursors, Error
Handling, Triggers.
Relational data base design: function dependencies & normalization for
relational databases: functional dependencies, normal forms based on primary
keys, (1NF, 2NF, 3NF & BCNF), lossless join and dependency preserving
decomposition.
Concurrency control & recovery techniques: concurrency control techniques,
locking techniques, time stamp ordering, granularity of data items, recovery
techniques: recovery concepts, database backup and recovery from catastrophic
failures. Object-oriented Databases, Distributed and Parallel Databases,
Multi-databases, Access Methods, Transaction Management, Query Processing,
Deductive Databases, multimedia Databases, Real-Time Databases, Active
Databases, Temporal Databases, Mobile Databases, Database Benchmarks,
Database Security, Data Mining and Data Warehousing.

Books and Referances
1. Desai, B., “An introduction to database concepts”, Galgotia publications.
2. Readings in Database Systems edited by M. Stonebraker, Morgan Kaufmann,
2nd ed., 1994 Conference and Journal papers
3. Date, C. J. , “An introduction to database systems”, 7rd Edition, Addison
Wesley.
4. Date, C. J. , “An introduction to database systems”, 3rd Edition, Narosa
publishing house.
5. Elmsari and Navathe, “Fundamentals of database systems”, Addison Wesley.
6. Ullman, J. D., “Principals of database systems”, Galgotia publications.
7. DB2 Manuals

FACULTY:-       

1)Name:Dr. Lalit Kumar Awasthi
Designation:Professor     
Qualification:Ph.D.  (Computer Sc.)     
Specialization:Computer Architecture, Fault Tolerant, Parallel and Distributed Processing, Check Pointing, Mobile Computing, Ad hoc Networks     
Phone (01972)304420 (O) 304421 (R)
email id:lalit@nitham.ac.in     

2)Name:Dr. Narottam Chand
Designation:Associate Professor & Head     
Qualification:Ph.D.  (Computer Sc.)     
Specialization:Mobile Computing, MANETs, WSNs, Computer Networks, Data Mining     
Phone (01972)304430 (O) 304431 (R)
email id:nar@nitham.ac.in
    
3)Name:Dr. (Mrs.) Kamlesh Dutta     
Designation:Associate Professor     
Qualification:Ph.D. (Computer Sc.)     
Specialization:Artificial Intelligence     
Phone (01972)304424 (O) 304425 (R)

4)Name:Sh. Kumar Sambhav Pandey     
Designation:Associate Professor     
Qualification:B.E. (Hons.), M.E.     
Specialization:Computer Architecture, Embedded Systems, Reconfigurable Computing     Phone (01972)304442 (O) 304641 (R)
email id:kumar@nitham.ac.in

5)Name:Dr. T.P. Sharma     
Designation:Associate Professor     
Qualification:Ph.D.  (Computer Sc.)     
Specialization:Distributed Systems, Wireless Sensor Networks, Mobile Ad Hoc Networks     
Phone (01972)304426 (O)304427 (R)
email id:teek@nitham.ac.in
    
6)Name:Sh.Sidhhartha Chauhan     
Designation:Assistant Professor     
Qualification:M. Tech.(Computer Sc.) Pursuing Ph.D     
Specialization:Information system security,Cryptography and Coding,Microprocessor System Design     
Phone (01972)304428 (O)304429 (R)
email id:sid@nitham.ac.in    

7)Name:Sh. Naveen Chauhan     
Designation:Assistant Professor
Qualification:M. E.,Pursuing Ph. D.     
Specialization:Compiler Design,  Computer Architecture, Automata Theory, Advanced Microprocessor
Phone (01972)304432 (O)304433 (R)
email id:naveen@nitham.ac.in
     
8)Name:Sh. Rajiv Kumar     
Designation:Assistant Professor     
Qualification:B. E.     
Specialization:Discrete Structure, Computer Graphics     
Phone(01972)304434 (O)304435 (R)
email id:rajeev@nitham.ac.in
     
9)Name:Sh. Pardeep Singh
Designation:Assistant Professor     
Qualification:M. E.
Specialization:Parallel Processing,Computer Architecture     
Phone(01972)304436 (O)304437 (R)
email id:pardeep@nitham.ac.in
     
10)Name:Sh. Nitin Gupta     
Designation:Assistant Professor
Qualification:M. Tech.     
Specialization:Data structure, Analysis & Design of Algorithm     
Phone(01972)304416 (O)304417 (R)
email id:nitin@nitham.ac.in     
 

National Institute ational of Technology
Hamirpur (H.P.)-177 005
Registration (First Year)
Session 2010-2011
Total passport size photographs required: 03
Following documents and credentials are required and may please be arranged in
sequence for verification at the time of registration.
S. No. Name of the Document
1. Provisional Admission Letter issued from CCB (Original)
2. Score Card issued by CBSE indicating the rank in AIEEE-2010 of eligible candidate. (Attested copy)
3. Admit Card of AIEEE-2010 to verify the identity of the candidate (Attested copy)
4. Class 10th (High School) Board Certificate as a proof of date of birth (Attested copy)
Note: Only those candidates whose date of birth falls on or after October 01, 1985 are eligible. However, in the case
of Scheduled Caste (SC), Scheduled Tribe (ST) and Physically Handicapped (PH) candidates, upper age limit is
relaxed by 5 years, i.e. SC, ST and PH candidates who were born on or after October 01, 1980 are eligible.
Date of birth as recorded in the Secondary Education Board/University certificate only will be taken as authentic.
5. Class 10+2 Certificate of Qualifying Examination (Attested copy)
6. Marks Sheet of Qualifying Examination. (Attested copy)
7. Character Certificate, (a report on the behaviour pattern of the applicant from school) (Attested copy)
8. Affidavit for giving reason for study gap (if any) duly sign Oath Commissioner / by Notary Public /
Executive Magistrate. (Original)
9. Certificate of Category (SC/ST/OBC*) (if applicable), issued by the competent Authority (Attested Copy)
SC, ST, OBC and PH candidates will be required to produce original certificate issued by the competent
authority at the time of registration, failing which they will not be considered for admission/ registration.
*OBC candidates will have to satisfy the caste and creamy layer requirements detailed on the following
National Commission for Backward Classes (ncbc) websites:
(a) http://ncbc.nic.in/backward-classes/index.html
(b) http://ncbc.nic.in/html/creamylayer.html
Very Important Note:
• OBC candidates should bring OBC certificate only in the prescribed performa (CCB format).
• OBC Caste belonging to Central List is to be considered vide MHRD, GOI OM No.: 1-1/2005-
U.1.A/847 dated 20th April, 2008 Para VIII, Page 2.

Kind
Attention
• It is compulsory for the candidate to submit category certificate in CCB format.
If the verification reveals that the claim of the candidate to belong to SC/ST/OBC is false,
the admission of such candidate should be cancelled forthwith without assigning any further
reasons and without prejudice to such further action as may be taken under the provisions of the
Indian Penal Code for production of false certificate.
See letter no.:
10. Declaration / Undertaking-for OBC candidates only (if applicable) (Original)
11. Certificate of Physically Handicapped (if applicable) (Attested Copy)
For physically handicapped category a minimum of 40% disability is required and certificate issued on or
after January 1, 2010 will only be acceptable.
12. Medical Fitness Certificate issued by the Medical Officer of NIT dispensary or any Government Civil
hospital. (Original)
For medical certificate, student should know his / her blood group.
13. Migration/Transfer Certificate (Original)
14. An ‘Undertaking’ by the student - Institutional (Original)
15. An ‘Affidavit by the student’ given in Annexure I [Anti-ragging measures] (Original)
16. An ‘Affidavit by parent / guardian’ given in Annexure II [Anti-ragging measures] (Original)
The first year students and their parents are required to submit the above mentioned affidavits at the time of registration.
Also, a student seeking admission to the hostel shall have to submit additional affidavits countersigned by his/her parents/guardians
in the form of Annexure I, II along with his/ her application for hostel accommodation.
17. Passport of the candidates who have passed qualifying examination from outside India for determination of
the state of eligibility. (Attested Copy)
18. Proof of place of examination centre of the final examination from the National Open School for
candidates having Senior Secondary Certificate for determination of the state of eligibility. (Attested Copy)
You will not be allowed to register if you fail to produce original certificates, mark-sheets and other
documents as mentioned above. You must bring one set of attested photocopies of all the above
mentioned documents at the time of registration.
Note 1: If the original certificates are not in Hindi/English, duly certified Hindi/English version/translation of such
certificates will be required.
Note 2: All students are advice to procure latest “Income Certificate of parents” issued by the ‘Drawing and
Disbursing Officer’ of the concerned employee or ‘Revenue Authority’ of the area concerned, well in time
for the purposes of various scholarship schemes for the session 2010-2011.
Dr. Sunil
Coordinator (Registration)
NIT-Hamirpur (HP)
01972-304134 (Off), 01972-304135 (Res), 09418156759 (Mobile)

National Institute ational of Technology
Hamirpur (H.P.)-177 005

Registration (First Year)
Session 2010-2011
Total passport size photographs required: 03


Following documents and credentials are required and may please be arranged in
sequence for verification at the time of registration.

1. Provisional Admission Letter issued from CCB (Original)
2. Score Card issued by CBSE indicating the rank in AIEEE-2010 of eligible candidate. (Attested copy)
3. Admit Card of AIEEE-2010 to verify the identity of the candidate (Attested copy)
4. Class 10th (High School) Board Certificate as a proof of date of birth (Attested copy)
Note: Only those candidates whose date of birth falls on or after October 01, 1985 are eligible. However, in the case
of Scheduled Caste (SC), Scheduled Tribe (ST) and Physically Handicapped (PH) candidates, upper age limit is
relaxed by 5 years, i.e. SC, ST and PH candidates who were born on or after October 01, 1980 are eligible.
Date of birth as recorded in the Secondary Education Board/University certificate only will be taken as authentic.
5. Class 10+2 Certificate of Qualifying Examination (Attested copy)
6. Marks Sheet of Qualifying Examination. (Attested copy)
7. Character Certificate, (a report on the behaviour pattern of the applicant from school) (Attested copy)
8. Affidavit for giving reason for study gap (if any) duly sign Oath Commissioner / by Notary Public /
Executive Magistrate. (Original)
9. Certificate of Category (SC/ST/OBC*) (if applicable), issued by the competent Authority (Attested Copy)
SC, ST, OBC and PH candidates will be required to produce original certificate issued by the competent
authority at the time of registration, failing which they will not be considered for admission/ registration.

*OBC candidates will have to satisfy the caste and creamy layer requirements detailed on the following
National Commission for Backward Classes (ncbc) websites:
(a) http://ncbc.nic.in/backward-classes/index.html
(b) http://ncbc.nic.in/html/creamylayer.html
Very Important Note:
• OBC candidates should bring OBC certificate only in the prescribed performa (CCB format).
• OBC Caste belonging to Central List is to be considered vide MHRD, GOI OM No.: 1-1/2005-
U.1.A/847 dated 20th April, 2008 Para VIII, Page 2.

Kind

Attention
• It is compulsory for the candidate to submit category certificate in CCB format.
If the verification reveals that the claim of the candidate to belong to SC/ST/OBC is false,
the admission of such candidate should be cancelled forthwith without assigning any further
reasons and without prejudice to such further action as may be taken under the provisions of the
Indian Penal Code for production of false certificate.
See letter no.:
10. Declaration / Undertaking-for OBC candidates only (if applicable) (Original)
11. Certificate of Physically Handicapped (if applicable) (Attested Copy)
For physically handicapped category a minimum of 40% disability is required and certificate issued on or
after January 1, 2010 will only be acceptable.
12. Medical Fitness Certificate issued by the Medical Officer of NIT dispensary or any Government Civil
hospital. (Original)
For medical certificate, student should know his / her blood group.
13. Migration/Transfer Certificate (Original)
14. An ‘Undertaking’ by the student - Institutional (Original)
15. An ‘Affidavit by the student’ given in Annexure I [Anti-ragging measures] (Original)
16. An ‘Affidavit by parent / guardian’ given in Annexure II [Anti-ragging measures] (Original)
The first year students and their parents are required to submit the above mentioned affidavits at the time of registration.
Also, a student seeking admission to the hostel shall have to submit additional affidavits countersigned by his/her parents/guardians
in the form of Annexure I, II along with his/ her application for hostel accommodation.
17. Passport of the candidates who have passed qualifying examination from outside India for determination of
the state of eligibility. (Attested Copy)
18. Proof of place of examination centre of the final examination from the National Open School for
candidates having Senior Secondary Certificate for determination of the state of eligibility. (Attested Copy)

You will not be allowed to register if you fail to produce original certificates, mark-sheets and other
documents as mentioned above. You must bring one set of attested photocopies of all the above
mentioned documents at the time of registration.
Note 1: If the original certificates are not in Hindi/English, duly certified Hindi/English version/translation of such
certificates will be required.
Note 2: All students are advice to procure latest “Income Certificate of parents” issued by the ‘Drawing and
Disbursing Officer’ of the concerned employee or ‘Revenue Authority’ of the area concerned, well in time for the purposes of various scholarship schemes for the session 2010-2011.

Dr. Sunil
Coordinator (Registration)
NIT-Hamirpur (HP)
01972-304134 (Off), 01972-304135 (Res), 09418156759 (Mobile)

Class 10th (High School) Board Certificate as a proof of date of birth (Attested copy)
Note: Only those candidates whose date of birth falls on or after October 01, 1985 are eligible. However, in the case
of Scheduled Caste (SC), Scheduled Tribe (ST) and Physically Handicapped (PH) candidates, upper age limit is
relaxed by 5 years, i.e. SC, ST and PH candidates who were born on or after October 01, 1980 are eligible.
Date of birth as recorded in the Secondary Education Board/University certificate only will be taken as authentic.

Class 10+2 Certificate of Qualifying Examination (Attested copy)

Marks Sheet of Qualifying Examination.

FACULTY:-       

1)Name:Dr. Lalit Kumar Awasthi
Designation:Professor     
Qualification:Ph.D.  (Computer Sc.)     
Specialization:Computer Architecture, Fault Tolerant, Parallel and Distributed Processing, Check Pointing, Mobile Computing, Ad hoc Networks     
Phone (01972)304420 (O) 304421 (R)
email id:lalit@nitham.ac.in     

2)Name:Dr. Narottam Chand
Designation:Associate Professor & Head     
Qualification:Ph.D.  (Computer Sc.)     
Specialization:Mobile Computing, MANETs, WSNs, Computer Networks, Data Mining     
Phone (01972)304430 (O) 304431 (R)
email id:nar@nitham.ac.in
    
3)Name:Dr. (Mrs.) Kamlesh Dutta     
Designation:Associate Professor     
Qualification:Ph.D. (Computer Sc.)     
Specialization:Artificial Intelligence     
Phone (01972)304424 (O) 304425 (R)

4)Name:Sh. Kumar Sambhav Pandey     
Designation:Associate Professor     
Qualification:B.E. (Hons.), M.E.     
Specialization:Computer Architecture, Embedded Systems, Reconfigurable Computing     Phone (01972)304442 (O) 304641 (R)
email id:kumar@nitham.ac.in

5)Name:Dr. T.P. Sharma     
Designation:Associate Professor     
Qualification:Ph.D.  (Computer Sc.)     
Specialization:Distributed Systems, Wireless Sensor Networks, Mobile Ad Hoc Networks     
Phone (01972)304426 (O)304427 (R)
email id:teek@nitham.ac.in
    
6)Name:Sh.Sidhhartha Chauhan     
Designation:Assistant Professor     
Qualification:M. Tech.(Computer Sc.) Pursuing Ph.D     
Specialization:Information system security,Cryptography and Coding,Microprocessor System Design     
Phone (01972)304428 (O)304429 (R)
email id:sid@nitham.ac.in    

7)Name:Sh. Naveen Chauhan     
Designation:Assistant Professor
Qualification:M. E.,Pursuing Ph. D.     
Specialization:Compiler Design,  Computer Architecture, Automata Theory, Advanced Microprocessor
Phone (01972)304432 (O)304433 (R)
email id:naveen@nitham.ac.in
     
8)Name:Sh. Rajiv Kumar     
Designation:Assistant Professor     
Qualification:B. E.     
Specialization:Discrete Structure, Computer Graphics     
Phone(01972)304434 (O)304435 (R)
email id:rajeev@nitham.ac.in
     
9)Name:Sh. Pardeep Singh
Designation:Assistant Professor     
Qualification:M. E.
Specialization:Parallel Processing,Computer Architecture     
Phone(01972)304436 (O)304437 (R)
email id:pardeep@nitham.ac.in
     
10)Name:Sh. Nitin Gupta     
Designation:Assistant Professor
Qualification:M. Tech.     
Specialization:Data structure, Analysis & Design of Algorithm     
Phone(01972)304416 (O)304417 (R)
email id:nitin@nitham.ac.in