Learning objectives
The objective of this course consists of building on the basic information theory background built in the course 1005249 - INFORMATION THEORY, to develop advanced concepts in network (multi-terminal) information theory.
Students taking this course will master the information-theoretic concepts at the basis of uplink (multiaccess) and downlink (broadcast) channels in wireless communications, interference management, and link scheduling in ad-hoc device-to-device networks. They will be able to apply such concepts of actual problems arising in state of the art wireless communication systems, with special emphasis to 5G wireless networks.
Prerequisites
1005249 - INFORMATION THEORY
Course unit content
The course provides a deep knowledge of basic results in network information theory, including the most fundamental network topologies building blocks such as the multiple access channel, the broadcast channel, the interference channel, and the relay channel. Then, the course provides also several contemporary advanced topics and applications, such as multiuser MIMO (with applications to 5G massive MIMO schemes), the relation between the information theoretic multiple access channel and successive/iterative multiuser detection/decoding in modern CDMA schemes and the regime of TIN (treating interference as noise) optimality, with relations on link selection and scheduling in Device-to-Device (D2D) networks. Relations with the current trends of actual wireless standards and in particular with 5G systems will be pointed out.
Full programme
- Review of advanced concepts in typical sequences: packing lemma, covering lemma, conditional typicality, Markov lemma.
- Lossy source coding and rate-distortion theory for memoryless sources.
- Lossy compression of correlated Gaussian sources, bit-allocation and reserve waterfilling
- Introduction to discrete memoryless and Gaussian multiple access channels.
- Introduction to discrete memoryless and Gaussian degraded broadcast channels.
- Introduction to binning schemes.
- Introduction to multiuser MIMO
- Introduction to the 2-user Gaussian interference channel
- Introduction to optimality of treating interference as noise
Bibliography
El Gamal, A. and Kim, Y.H., 2011. Network information theory. Cambridge University Press.
The course is based on a number of very recent results which are not yet collected in textbooks, therefore a collection of relevant papers (mainly from IEEE Transactions on Information Theory, IEEE Transactions on Communications, IEEE Transactions on Wireless Communications) will be provided as reading material for the course.
Teaching methods
The course is divided into theoretical lessons and classroom exercise sessions. The lectures are organised in video lectures (24h, UNIT 1) and lectures in person (24h, UNIT2). The slides of the course will be provided on the Elly platform.
Additional teaching material used during the lessons is uploaded to the Elly web site. The registration to the course is necessary to download the slides.
Assessment methods and criteria
Written test (basic theory questions and small problem solving).
Seminar/Project oral presentation (with slides), with additional oral examination (discussion/theory questions).
Other information
Related information and material will be published on a properly prepared course webpage.
