An Error Probability Approach to MIMO Wiretap Channels

Author

Belfiore, J. ; Oggier, Frederique

Author_Institution

Telecom ParisTech, Paris, France

Volume

61

Issue

8

fYear

2013

fDate

Aug-13

Firstpage

3396

Lastpage

3403

Abstract

We consider MIMO (Multiple Input Multiple Output) wiretap channels, where a legitimate transmitter Alice is communicating with a legitimate receiver Bob in the presence of an eavesdropper Eve, and communication is done via MIMO channels. We suppose that Alice´s strategy is to use an infinite lattice codebook, which then allows her to perform coset encoding. We analyze Eve´s probability of correctly decoding the message Alice meant to Bob, and from minimizing this probability, we derive a code design criterion for MIMO lattice wiretap codes. The case of block fading channels is treated similarly, and fast fading channels are derived as a particular case. The Alamouti code is carefully studied as an illustration of the analysis provided.

Keywords

MIMO communication; broadcast channels; channel coding; error statistics; fading channels; lattice theory; radio receivers; radio transmitters; telecommunication security; Alamouti code; Alice transmitter; Bob receiver; Eve eavesdropper; MIMO lattice wiretap codes; MIMO wiretap channels; block fading channels; code design criterion; coset encoding; error probability approach; fast fading channels; infinite lattice codebook; message decoding; multiple input multiple output wiretap channels; probability minimization; Decoding; Fading; Lattices; MIMO; Receivers; Upper bound; Vectors; Code design; Epstein zeta function; MIMO channels; error probability; fading channels; wiretap channels;

fLanguage

English

Journal_Title

Communications, IEEE Transactions on

Publisher

ieee

ISSN

0090-6778

Type

jour

DOI

10.1109/TCOMM.2013.061913.120278

Filename

6549239