We design a novel artificial-noise-aided secure ON-OFF transmission scheme in a wiretap channel. We consider a practical scenario, where the multi-antenna transmitter only obtains partial channel knowledge from the single-antenna receiver through limited training and feedback but has no channel knowledge about the single-antenna eavesdropper. In the design, we first propose a three-period block transmission protocol to capture the practical training and quantization features. We then characterize the statistics of the received signal-to-noise ratios at the receiver and the eavesdropper. Under the secrecy outage constraint, we exploit the ON-OFF scheme to perform secure transmission and derive a closed-form expression for the secrecy through...
In this article, a new relay-aided secure communication system is investigated, where a transmitter ...
[[abstract]]Physical-layer secrecy in wireless fading channels has been studied extensively in recen...
We consider the problem of secure communication in wireless fading channels in the presence of non-c...
We design a novel artificial-noise-aided secure onoff transmission scheme in a wiretap channel. We ...
We present an optimized secure multi-antenna transmission approach based on artificial-noise-aided b...
We investigate the optimal physical-layer secure transmission with artificial noise in the wiretap ...
In this paper, we investigate the design of artificial-noise-aided secure multi-antenna transmission...
We analyze and optimize the secrecy performance of artificial noise (AN) in multi-input single-outp...
[[abstract]]The impact of quantized channel direction information (CDI) on the achievable secrecy ra...
We study secure multi-antenna transmission with limited feedback from the intended receiver and no f...
We consider the secure beamforming transmission over a quasi-static block fading channel from a mult...
Abstract — The artificial noise (AN) scheme, proposed by Goel and Negi, is being considered as one o...
In this paper, we investigate the design of artificial-noise-aided secure multi-antenna transmission...
This paper, for the first time, examines the impact of transmitter-side correlation on the artifici...
Physical layer security in wireless networks has received increasing attention in recent years. In t...
In this article, a new relay-aided secure communication system is investigated, where a transmitter ...
[[abstract]]Physical-layer secrecy in wireless fading channels has been studied extensively in recen...
We consider the problem of secure communication in wireless fading channels in the presence of non-c...
We design a novel artificial-noise-aided secure onoff transmission scheme in a wiretap channel. We ...
We present an optimized secure multi-antenna transmission approach based on artificial-noise-aided b...
We investigate the optimal physical-layer secure transmission with artificial noise in the wiretap ...
In this paper, we investigate the design of artificial-noise-aided secure multi-antenna transmission...
We analyze and optimize the secrecy performance of artificial noise (AN) in multi-input single-outp...
[[abstract]]The impact of quantized channel direction information (CDI) on the achievable secrecy ra...
We study secure multi-antenna transmission with limited feedback from the intended receiver and no f...
We consider the secure beamforming transmission over a quasi-static block fading channel from a mult...
Abstract — The artificial noise (AN) scheme, proposed by Goel and Negi, is being considered as one o...
In this paper, we investigate the design of artificial-noise-aided secure multi-antenna transmission...
This paper, for the first time, examines the impact of transmitter-side correlation on the artifici...
Physical layer security in wireless networks has received increasing attention in recent years. In t...
In this article, a new relay-aided secure communication system is investigated, where a transmitter ...
[[abstract]]Physical-layer secrecy in wireless fading channels has been studied extensively in recen...
We consider the problem of secure communication in wireless fading channels in the presence of non-c...