Pseudo-doppler aided cancellation of self-interference in full-duplex communications

IF 1.3 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Dongsheng Zheng, Yuli Yang
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引用次数: 1

Abstract

In this work, a novel scheme is proposed to enhance the self-interference (SI) cancellation in full-duplex communications. Beyond conventional SI cancellation schemes that rely on the SI suppression, our proposed scheme exploits periodic antenna switching to generate the pseudo-Doppler effect, thus completely removing the SI at the fundamental frequency. In this way, the desired signal is readily obtained through a low-pass filter. For the purpose of performance evaluation, the SI cancellation capability is defined as the difference between the output signal-to-interference-plus-noise ratio (SINR) and the input SINR. Theoretical formulations and numerical results validate that our pseudo-Doppler aided scheme has higher SI cancellation capability than the conventional SI suppression schemes. Moreover, the impact of the SI suppression achieved by conventional schemes and the influence of antenna switching timing difference on the practical implementation of the proposed scheme are investigated, to further substantiate the validity of our pseudo-Doppler aided SI cancellation.
伪多普勒辅助消除全双工通信中的自干扰
本文提出了一种在全双工通信中增强自干扰消除的新方案。除了依赖于SI抑制的传统SI抵消方案之外,我们提出的方案利用周期性天线切换来产生伪多普勒效应,从而完全消除基频处的SI。这样,通过低通滤波器就可以很容易地获得所需的信号。出于性能评估的目的,SI抵消能力定义为输出信噪比(SINR)与输入SINR之间的差值。理论公式和数值结果验证了伪多普勒辅助方案比传统的SI抑制方案具有更高的SI抵消能力。此外,研究了传统方案对信号干扰抑制的影响以及天线切换时差对方案实际实施的影响,进一步验证了伪多普勒辅助信号干扰抵消的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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