下行卫星通信系统的双波束双频安全传输

Purui Wang, Zuyao Ni, Chunxiao Jiang, Linling Kuang, W. Feng
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引用次数: 1

摘要

在多天线卫星通信系统中,通常采用波束形成和人工噪声来提高物理层的安全性。然而,由于卫星与地面终端之间的距离较远,卫星下行链路主瓣的覆盖范围很大,即使使用点波束,窃听者也很容易进入该覆盖范围。当窃听者靠近合法用户时,主信道与窃听信道之间的差异很小,这使得保密能力迅速下降。本文提出了一种利用工作在不同频率上的两种不同波束向合法用户传输相同信号的新方案。这种双波束双频方案可以扩大所需信道与窃听信道之间的差异。然后,在适当的波束形成矢量上加入一些人工噪声,窃听者在合法用户附近的小区域内仍能保持较高的保密能力。为了推导出人工噪声和波束形成矢量,我们将该问题转化为半定问题,并利用CVX工具进行求解。仿真结果表明,即使窃听者离合法用户很近,该方案也能获得较高的保密能力。
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Dual-Beam Dual-Frequency Secure Transmission for Downlink Satellite Communication Systems
In the multi-antenna satellite communication system, beamforming and artificial noise are usually adopted to enhance physical layer security. However, due to the long distance between the satellite and the terrestrial terminal, the coverage of the main lobe in the satellite downlink is so large that the eavesdropper can get into the coverage easily despite of using spot beams. When the eavesdropper is close to the legitimate user, the difference between the main channel and the wiretap channel is small, which makes the secrecy capacity decrease rapidly. This paper proposes a novel scheme to solve this problem by using two different beams which work on different frequencies to transmit the same signal to the legitimate user. This dual-beam dual- frequency scheme can enlarge the difference between the desired channel and the wiretap channel. Then, if we add some artificial noise set the proper beamforming vectors, the secrecy capacity will remain high when the eavesdropper is in the small zone near the legitimate user. In order to derive the artificial noise and the beamforming vectors, we transform the problem into a semidefinite problem and use CVX tools to solve the problem. Simulation results prove that this scheme can achieve high secrecy capacity even when the eavesdropper is very close to the legitimate user.
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