#1
11th April 2015, 04:32 PM
| |||
| |||
RSA Mumbai university papers
I am preparing for the exam of the Random Signal Analysis of Mumbai University… Almost I have prepared but I also want the last year question papers of the Random Signal Analysis of Mumbai university so will you please tell me from where I can download the last year question papers of this course? Give me the information as soon as possible.
|
#2
19th July 2018, 10:43 PM
| |||
| |||
Re: RSA Mumbai university papers
Can you provide me the syllabus of - Semester II - ETC201 - Modern Digital Communication under M.E. E &TC Engineering program in which the Course Pre-requisite is RSA (Random Signal Analysis) offered by University of Mumbai on which the question paper is based?
|
#3
19th July 2018, 10:44 PM
| |||
| |||
Re: RSA Mumbai university papers
The syllabus of - Semester II - ETC201 - Modern Digital Communication under M.E. E &TC Engineering program in which the Course Pre-requisite is RSA (Random Signal Analysis) offered by University of Mumbai on which the question paper is based is as follows: Semester II ETC201 - Modern Digital Communication Course Pre-requisite: -Digital communication -Random Signal Analysis Course Objectives: The aim of this course is to let the students obtain -Fundamentals of modern communication system -Ability to analyze and design digital communication systems Course Outcome: Learners will be able to: -Explain and implement different source coding techniques -Analyze waveform receivers for coherent and non-coherent communication -Describe and design of band-limited channels -Evaluate the detection and estimation of signals in the presence of noise. -Explain the characteristics of fading channels. Module Detailed Content 1 Source Coding -Average ,mutual information & entropy -Coding for discrete sources -The Lempel algorithm(LZ-77,LZ-78,LZW) -Coding for analog sources -Temporal waveform coding -Spatial waveform coding 2 Coherent Communication with Waveforms -Binary cross-correlation receivers -Matched filter receivers -M-ary waveform receivers -Time-sampling approach -Karhunen-Loeve(K-L) Expansion approach -Whitening approach -Real and complex signal models -Effect of Data Imperfect Carrier Synchronization -Effect of Data Imperfect bit synchronization 3 Non Coherent Communication with Waveforms -Non Coherent receivers in random phase channels -Optimum M-FSK receivers -Non coherent receivers in random amplitude and phase channels -Optimum receivers in Rayleigh channels Optimum receivers in Rician channels 4 Signal Design for Channel and Equalization Design of band limited signals with controlled ISI Symbol by symbol sub optimum detection Introduction to linear equalizer Means square error (MSE) criterion Iterative equalization and decoding Introduction to adaptive equalization The LMS Algorithm 5 Optimum Detection and Estimation Noise vector in signal space Bayes detection of received signal Decision region & minimum error probability Optimum detection of several special comm. signals 6 Fading Channels Small scale multipath propagation Parameters of mobile multipath channels Types of small scale fading Rayleigh and Rician distribution Textbooks and References: 1. Digital Communication by John G.Proakis, 3rd Edition McGraw Hill International Editions. 2. Digital Communication Techniques Signal Design & Detection by Marvin K. Simon, Sami M Hindei, William C Lindesy, PHI Learning Private Limited. 3. Digital Communications, Fundamental & Application by Bernard Sklar, Pabitra Kumar Ray, 2nd Edition, Pearson Publication 4. Wireless communication principles and practice by Theodore S. Rappaport, 2nd Edition , Pearson Publication |
|