Visible to the public Scaling laws for secrecy capacity in cooperative wireless networks

TitleScaling laws for secrecy capacity in cooperative wireless networks
Publication TypeConference Paper
Year of Publication2014
AuthorsMirmohseni, M., Papadimitratos, P.
Conference NameINFOCOM, 2014 Proceedings IEEE
Date PublishedApril
Keywordsactive cooperative relaying, Aggregates, array signal processing, beamforming, cooperative communication, cooperative wireless networks, encoding, interference (signal), interference limited communications, Markov processes, parallel relaying scheme, path loss exponent, relay networks (telecommunication), Relays, scaling laws, secrecy capacity, secure communication, serial block Markov scheme, telecommunication security, Tin, Transmitters, wireless networks, Wyner randomized encoder
Abstract

We investigate large wireless networks subject to security constraints. In contrast to point-to-point, interference-limited communications considered in prior works, we propose active cooperative relaying based schemes. We consider a network with nl legitimate nodes and ne eavesdroppers, and path loss exponent a 2. As long as ne2(log(ne))g = o(nl) holds for some positive g, we show one can obtain unbounded secure aggregate rate. This means zero-cost secure communication, given a fixed total power constraint for the entire network. We achieve this result with (i) the source using Wyner randomized encoder and a serial (multi-stage) block Markov scheme, to cooperate with the relays, and (ii) the relays acting as a virtual multi-antenna to apply beamforming against the eavesdroppers. Our simpler parallel (two-stage) relaying scheme can achieve the same unbounded secure aggregate rate when nea/2 + 1 (log(ne))g+d(a/2+1) = o(nl) holds, for some positive g, d.

DOI10.1109/INFOCOM.2014.6848088
Citation Key6848088