On the Achievable Secrecy Diversity of Cooperative Networks with Untrusted Relays
Mohaned Chraiti, Ali Ghrayeb, Chadi Assi, Mazen O. Hasna

TL;DR
This paper investigates the maximum secrecy diversity order achievable in cooperative networks with untrusted relays, proposing a nonlinear interference alignment scheme that improves security and diversity performance.
Contribution
It introduces a novel nonlinear interference alignment scheme that achieves higher secrecy diversity order in untrusted relay networks compared to existing methods.
Findings
Achieves secrecy diversity order up to min(N,K)-1.
Provides explicit expression for achievable secrecy rate.
Demonstrates superiority over existing techniques through numerical validation.
Abstract
Cooperative relaying is often deployed to enhance the communication reliability (i.e., diversity order) and consequently the end-to-end achievable rate. However, this raises several security concerns when the relays are untrusted since they may have access to the relayed message. In this paper, we study the achievable secrecy diversity order of cooperative networks with untrusted relays. In particular, we consider a network with an N-antenna transmitter (Alice), K single-antenna relays, and a single-antenna destination (Bob). We consider the general scenario where there is no relation between N and K, and therefore K can be larger than N. Alice and Bob are assumed to be far away from each other, and all communication is done through the relays, i.e., there is no direct link. Providing secure communication while enhancing the diversity order has been shown to be very challenging. In…
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Taxonomy
TopicsCooperative Communication and Network Coding · Wireless Communication Security Techniques · Advanced Wireless Communication Technologies
