Title :
Multiple-Access Relay Wiretap Channel
Author :
Bin Dai ; Zheng Ma
Author_Institution :
Sch. of Inf. Sci. & Technol., Southwest Jiaotong Univ., Chengdu, China
Abstract :
In this paper, we investigate the effects of an additional trusted relay node on the secrecy of multiple-access wiretap channel (MAC-WT) by considering the model of multiple-access relay wiretap channel (MARC-WT). More specifically, first, we investigate the discrete memoryless MARC-WT. Three inner bounds [with respect to decode-and-forward (DF), noise-and-forward (NF), and compress-and-forward (CF) strategies] on the secrecy capacity region are provided. Second, we investigate the degraded discrete memoryless MARC-WT, and present an outer bound on the secrecy capacity region of this degraded model. Finally, we investigate the Gaussian MARC-WT, and find that the proposed relay strategies (DF, NF, CF strategies) help to enhance Tekin-Yener´s achievable secrecy rate region of the Gaussian MAC-WT.
Keywords :
decode and forward communication; multi-access systems; relay networks (telecommunication); telecommunication security; Gaussian MAC-WT; Gaussian MARC-WT; Tekin-Yener´s achievable secrecy rate region; compress-and-forward strategy; decode-and-forward strategy; degraded discrete memoryless MARC-WT; multiple-access relay wiretap channel; noise-and-forward strategy; relay strategies; secrecy capacity region; trusted relay node; Decoding; Noise; Noise measurement; Receivers; Relays; Transmitters; Zinc; Multiple-access wiretap channel; relay channel; secrecy capacity region;
Journal_Title :
Information Forensics and Security, IEEE Transactions on
DOI :
10.1109/TIFS.2015.2431992
