Master of Engineering ( CSE)
MECSE - 101 Advanced Communication
Theory
Teaching
Scheme
T
P
4
-
Examination Scheme
Theory
Marks
100
Hours
3
Sess.
Marks
50
Pract/
Marks
-
Termwork
Marks
-
Total
Marks
150

Orthogonal representation of signals and related functions, time
bandwidth and dimensionality.

Probability theory, distributions and density functions, conditional
probability, baye's Law and hypothesis. Stochastic processes, queueing
theory.

Random variables and process representations, ergodicity and
applications, operations on ensembles, representation of linear and nonlinear system.

Spectra, co-variance and correlation, Autocorrelation, Cross-correlation
functions.

Sampling and interpolation functions, spectra, Nyquist theorem, Under
sampling, applications, Noise figure, Signal-to-noise ratio, performance
of communication system with channel-Noise.
BOOKS :
1. Probability and Random Process By Populis (Mcgraw Hill)
2. Principles of communication engineering By Wozencraft and Jacobs
(John wiley and sons)
3. Probability and Random Process using MATLAB By Donald Childres
(Mcgraw Hill)
4. An Introduction to Statistical Communication Theory By David
Middleton (IEEE Press)
5. Introductory probability and statical application By Addision Wesley
(Oxford and IBP publ.)
6. Probability and Random process By Daven port W. B. Mcgraw Hill.
Master of Engineering ( CSE)
MECSE - 102 Digital Communication
Teaching
Scheme
T
P
4
2
Examination Scheme
Theory
Marks
100
Hours
3
Sess.
Marks
50
Pract/
Marks
25
Termwork
Marks
25
Total
Marks
200
Concept and measure of information , Shannon's theorem, channel models and channel
capacity, Binary symmetric channel. Fundamental concepts of coding, Generation of
codes, error detection and error correction, linear block codes, cyclic codes. Non binary
block codes, Concatenated codes, Interleaving of coded data with burst errors
convolutional codes, practical considerations.
Characterization of signals and systems, optimum receivers for additive / white gaussian
noise channels. Carrier and symbol synchronization, Communication through band
limited linear filter channel, Adaptive equalization Multichannel and Multi carrier
system.
Practical / term-work will be based upon above mentioned syllabus.
BOOKS :
1. Digital Communication - John Prokais (Mc Graw Hill)
2. Modern digital and analog communication systems by B. P. Lathi (Oxford 3rd ed.)
3. Digital Communication by simon Haykin (John wiley)
4. Digital and Data communication By Martin and Roden ( Prentice Hall)
5. Information theory and coding By Normal Abramson (Mcgraw Hill)
6. Algebric coding Theory By E. R. Berlekamp ( McGraw Hill)
7. Coding and Information theory By R.W. Hamming (Prentice Hall)
8. Basic concepts in Infromation theory and coding By S. W. Golomb, R.E. Peile and R.
A. Scholtz (Plennum Press)
Master of Engineering ( CSE)
MECSE - 103 Discrete time signal processing
Teaching
Scheme
T
P
4
2
Examination Scheme
Theory
Marks
100
Hours
3
Sess.
Marks
50
Pract/
Marks
25
Termwork
Marks
25
Total
Marks
200
Discrete time signals and systems. Analysis of DTLI systems.Two
dimensional signals and systems and their frequency domain representation. Z-transform
: Properties. Inverse Z-transform.
Relation to other transforms. Discrete Fourier Transform ( DFT). Linear filtering
methods based on DFT. Computation of DFT. Various methods. FFT algorithms.
Multi-resolution analysis
Shorrt time Fourier Transform (STFT).
Uncertainty principle. Wavelet series and transform. Discrete Hilbert Transform.
Relationship between magnitude and phase. Analysis and Design of digital Filters.
Simple QMF filters. Filter banks based on QMF filters.
Multi-rate Digital Signal Processing
Sampling rate conversion.
Decimation and Interpolation.
Practical / term-work will be based upon above mentioned syllabus.
BOOKS :
1. Discrete Time signal processing : Alen V oppenheim and Ronald W
Schafer. Prentice Hall India.
2. Digital Signal Processing : John G Proakis and Dimitris G Manolakis.
Prentice Hall India
3. Multirate systems and Filterbank : Vaidyanathan P.P , Prentice Hall.
Reference Books :
1. Hand book of digital signal processing - Engineering applications Ed.
Douglas F Elliot. Academic Press Inc.
Master of Engineering ( CSE)
MECSE - 104 Telcommunication Switching
Systems & Networks
Teaching
Scheme
T
P
4
2
Examination Scheme
Theory
Marks
100
Hours
3
Sess.
Marks
50
Pract/
Marks
25
Termwork
Marks
25
Total
Marks
200
Introduction.
Electronic space division switching.
Speech digitization & Transmission
Time Division Switching
Traffic Engg.
Telephone Networks.
Analysis of loss & delay.
Modelling Networks as graph.
Fundamental graph algorithms.
Centralized N/W design
Routing
Mesh topology optimisation
N/W reliability.
Practical / term-work will be based upon above mentioned syllabus.
BOOKS:
1. Telecommunication switching systems & N/Ws By Thiagarajan
Viswanathan, PHI, 1998.
2. Telecommunications N/W design Algorothms By Aaron Kershenbaum ,
Mcgraw Hill, 1993 International Ed.
Master of Engineering ( CSE)
MECSE - 105 Satellite Communication
Teaching
Scheme
T
P
4
-
Examination Scheme
Theory
Marks
100
Hours
3
Sess.
Marks
50
Pract/
Marks
-
Termwork
Marks
-
Total
Marks
150
Overview, Orbits and Launching Methods, Polarization, Antennas, The Space Segment,
The earth Segment, Analog Signals, Digital signals, The space link, Interference, Satellite
Access, Satellite Services.
BOOKS :
1. Satellite Communication By Dennis Roddy , Mcgraw Hill.
Master of Engineering ( CSE)
MECSE - 106 Seminar
Teaching
Scheme
T
P
-
4
Examination Scheme
Theory
Marks
-
Hours
-
Sess.
Marks
-
Pract/
Marks
50
Termwork
Marks
50
Total
Marks
100
Each students will be required to submit one term paper about latest trends in a subject
chosen in consultation with faculty. He has to present a seminar regarding the progress
of his studies.