Course No.: ECEM188
Instructor: Shahid M Shah
Credits:
Location: Seminar room, old building ECE department
Pre-requisites: Probability theory (UG level), Communication systems (UG Level)
Syllabus:
Books:
Main book is
Home works (Important note: Out of Assignment 3,4,5 submit only one assignment, the two assignments are non-evaluative. You can submit any one assignment of your choice.)
Instructor: Shahid M Shah
Credits:
Location: Seminar room, old building ECE department
Pre-requisites: Probability theory (UG level), Communication systems (UG Level)
Syllabus:
- Revision of Probability theory, Sampling theorem, Pulce Code Modulation
- Gram Schimidt Technique, Concept of Constellations (BPSK, QPSK, PSK, QAM)
- Additive White Gaussian Noise (AWGN) Channel, Bit Error Rate (BER) Analysis for various constellation schemes.
- Receiver design in presence of noise, Maximum Likelikood (ML) Decoder, MAP Decoder.
- Introduction to Information theory, Entropy, Mutual Information , Capacity of channel, Capacity of AWGN Channel, Shannon capacity of AWGN Channel.
- Introduction to Error Control codes, Linear codes, Hamming codes, Cyclic codes, BCH Codes, Convolutional codes.
- Introduction to Capacity achieving codes, Breif overview of Turbo codes, LDPC codes. Rough overview of Polar codes.
Books:
Main book is
- Digital Communication , Simon Haykin (Click here to download the book)
- Digital Communication, by Jhon Proakis
- Communication Engineering by Wozencraft
- Digital Communication by Andrew Viterbi and Omura
Home works (Important note: Out of Assignment 3,4,5 submit only one assignment, the two assignments are non-evaluative. You can submit any one assignment of your choice.)