We consider the secure beamforming transmission over a quasi-static block fading channel from a multi-antenna transmitter to a desired single-antenna receiver, in the presence of a passive single-antenna eavesdropper. We focus on a practical scenario where the transmitter can only acquire the statistical channel knowledge of the eavesdropper and the partial channel knowledge of the legitimate receiver through a finite amount of signaling overhead. To keep control of the outage events caused by the limited channel knowledge, We firstly propose a strategy to determine the wiretap code parameters under the outage constraints, based on which we establish a necessary transmission condition to guarantee a positive secrecy rate. Aided by this tran...
In this paper, we investigate the design of artificial-noise-aided secure multi-antenna transmission...
We propose a new optimal Location-Based Beamforming (LBB) scheme for the wiretap channel, where bot...
We propose a new secure transmission scheme in the multi-input multi-output multi-eavesdropper wire...
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 design a novel artificial-noise-aided secure ON-OFF transmission scheme in a wiretap channel. We ...
Physical layer security is one of the promising techniques for the security of next-generation wirel...
We study secure multi-antenna transmission with limited feedback from the intended receiver and no f...
We study secure transmission considering the practical scenario where only outdated knowledge of th...
Physical layer security has recently been regarded as an emerging technique to complement and improv...
With the rapid development of wireless communications, security becomes extremely important. In man...
We design new secure on-off transmission schemes in wiretap channels with outdated channel state in...
We analyze and optimize the secrecy performance of artificial noise (AN) in multi-input single-outp...
We propose a secure transmission scheme for a relay wiretap channel, where a source communicates wi...
Within this thesis, we investigate the possibilities of physical layer secrecy for two special syste...
In this paper, we investigate the design of artificial-noise-aided secure multi-antenna transmission...
We propose a new optimal Location-Based Beamforming (LBB) scheme for the wiretap channel, where bot...
We propose a new secure transmission scheme in the multi-input multi-output multi-eavesdropper wire...
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 design a novel artificial-noise-aided secure ON-OFF transmission scheme in a wiretap channel. We ...
Physical layer security is one of the promising techniques for the security of next-generation wirel...
We study secure multi-antenna transmission with limited feedback from the intended receiver and no f...
We study secure transmission considering the practical scenario where only outdated knowledge of th...
Physical layer security has recently been regarded as an emerging technique to complement and improv...
With the rapid development of wireless communications, security becomes extremely important. In man...
We design new secure on-off transmission schemes in wiretap channels with outdated channel state in...
We analyze and optimize the secrecy performance of artificial noise (AN) in multi-input single-outp...
We propose a secure transmission scheme for a relay wiretap channel, where a source communicates wi...
Within this thesis, we investigate the possibilities of physical layer secrecy for two special syste...
In this paper, we investigate the design of artificial-noise-aided secure multi-antenna transmission...
We propose a new optimal Location-Based Beamforming (LBB) scheme for the wiretap channel, where bot...
We propose a new secure transmission scheme in the multi-input multi-output multi-eavesdropper wire...