OTL551 Syllabus - Space Time Wireless Communication - 2017 Regulation - Open Elective | Anna University

OTL551 Syllabus - Space Time Wireless Communication - 2017 Regulation - Open Elective | Anna University

OTL551	SPACE TIME WIRELESS COMMUNICATION	L T P C

3003

OBJECTIVES:

To understand the concept of multiple antenna propagation.
To understand the concept of capacity of frequency flat deterministic MIMO channel.
To understand the concept of transmitter and receiver diversity technique.
To design the coding for frequency flat channel.
To analyze the concept of micro multi user detection.

UNIT I	MULTIPLE ANTENNA PROPAGATION AND ST CHANNEL CHARACTERIZATION	9

Wireless channel – Scattering model in macrocells – Channel as a ST random field – Scattering functions, Polarization and field diverse channels – Antenna array topology – Degenerate channels – reciprocity and its implications – Channel definitions – Physical scattering model – Extended channel model – Channel measurements – sampled signal model – ST multiuser and ST interference channels – ST channel estimation.

UNIT II	CAPACITY OF MULTIPLE ANTENNA CHANNELS	9

Capacity of frequency flat deterministic MIMO channel: Channel unknown to the transmitter – Channel known to the transmitter – capacity of random MIMO channels – Influence of ricean fading – fading correlation – XPD and degeneracy on MIMO capacity – Capacity of frequency selective MIMO channels.

UNIT III	SPATIAL DIVERSITY	9

Diversity gain – Receive antenna diversity – Transmit antenna diversity – Diversity order and channel variability – Diversity performance in extended channels – Combined space and path diversity – Indirect transmit diversity – Diversity of a space-time – frequency selective fading channel.

UNIT IV	MULTIPLE ANTENNA CODING AND RECEIVERS	9

Coding and interleaving architecture – ST coding for frequency flat channels – ST coding for frequency selective channels – Receivers–SISO–SIMO–MIMO–Iterative MIMO receivers – Exploiting channel knowledge at the transmitter: linear pre-filtering – optimal pre-filtering for maximum rate – optimal pre-filtering for error rate minimization – selection at the transmitter – Exploiting imperfect channel knowledge

UNIT V	ST OFDM, SPREAD SPECTRUM AND MIMO MULTIUSER DETECTION	9

SISO-OFDM modulation, MIMO-OFDM modulation – Signaling and receivers for MIMO– OFDM – SISO–SS modulation – MIMO-SS modulation – Signaling and receivers for MIMO – S.MIMO – MAC – MIMO – BC – Outage performance for MIMO-MU – MIMO - MU with OFDM – CDMA and multiple antennas.

TOTAL: 45 PERIODS

OUTCOMES: At the end of the course , students would be able to

Design and analyze the channel characterization.
Analyze the capacity of random MIMO channel.
Design and analyze the order diversity and channel variability.
Analyze the multiple antenna coding and receivers.
Analyze the MIMO multi user detection

TEXT BOOKS:

1. Sergio Verdu, “Multi User Detection” , Cambridge University Press, 2011
2. A. Paulraj, Rohit Nabar, Dhananjay Gore, “Introduction to Space Time Wireless Communication Systems”, Cambridge University Press , 2008

REFERENCES:

1. Don Tarrieri, “ Principles of Spread Spectrum Communication systems” ,Springer, Third edition, 2015