Applied Information Theory

Announcements

Exam

There will be a written exam of 90 min duration. No aids will be a allowed.

The second exam will take place on Wednesday, 04.10.2017 in room 45.2.101 at 10:00am.

 

 

 

Contents

Information theory is the basis of modern telecommunication systems. Main topics of information theory are source coding, channel coding, multi-user communication systems, and cryptology. These topics are based on Shannons work on information theory, which allows to describe information with measures like entropy and redundancy.

After a short overview of the whole area of information theory, we will consider concepts for statistic modeling of information sources and derive the source coding theorem. Afterwards, important source coding algorithms like Huffman, Tunstall, Lempel-Ziv and Elias-Willems will be described.

The second part of the lecture investigates channel coding. Important properties of codes and fundamental decoding strategies will be explained. Moreover, we will introduce possibilities for estimating the error probability and analyze the most important channel models according to the channel capacity introduced by Shannon.The Gaussian Channel is very important and therefore described extensively.

The third part deals with aspects of multi-user communication systems. We will introduce several models and investigate methods that can achieve the capacity regions.

Finally, we will give an introduction on data encryption and secure communication.

In the projects several information theoretic topics (e.g., Lempel-Ziv-coding) will be investigated by means of implementation tasks.

Topics

Basics:

  • Uncertainty (entropy), mutual information
  • Fano's lemma, data processing inequality

Source Coding:

  • Shannon's source coding theorem
  • Coding methods for memoryless sources: Shannon-Fano-, Huffman-, Tunstall, and arithmetic coding
  • Coding for sources with memory
  • Universal Source Coding
  • Rate Distortion Theory

Channel Coding:

  • Concepts of linear binary block codes
  • Shannon's channel coding theorem
  • Random coding and error exponent
  • MAP and ML decoding
  • Bounds
  • Channels and capacities: Gaussian channel, fading channel
  • Reed-Muller Codes
  • Incremental Redundancy
  • Channel Coding with Feedback

Multi-User Systems:

  • Duplex transmission
  • MAC channel
  • BC channel
  • MIMO channel
  • Queueing Theory
  • Random Access / ALOHA

Cryptography:

  • Basics

Literature

References

  • Thomas M. Cover and Joy A. Thomas, "Elements of Information Theory", Library ID: QAA 170/2006 C
  • Rolf Johannesson, "Informationstheorie", Library ID: QAA 170/1992 J (in German, can also be bought in our secretariat)
  • James L. Massey, Lecture Notes on "Applied Digital Information Theory I", ETH Zürich, external link to ETH Zürich (pdf)
  • Former german lecture notes by Prof. Bossert (pdf)

Semesterapparat

"Semesterapparat" to this Lecture

Downloads

Exercise Sheets

Script

Full Script (25.06.17)

Former German Lecture Notes

Labs

The labs will not be discussed in the exercise.

Summer Term 2017

Lecture:Tuesday, 14:15 - 16:45,
H45.2
Exercise:Monday, 13:15 - 14:45,
Room 43.2.101

Language

English

Requirements

Bachelor
Probability Theory

Exams

Written exam of 90 min duration.

Further Informations

Hours per Week:  3V + 2Ü + 1P
8 ECTS Credits
LSF - ENGJ 8023