Symbol-Level Precoding-Based Self-Interference Cancellation for ISAC Systems

Shu Cai, Zihao Chen, Ya-Feng Liu, Jun Zhang
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Abstract

Consider an integrated sensing and communication (ISAC) system where a base station (BS) employs a full-duplex radio to simultaneously serve multiple users and detect a target. The detection performance of the BS may be compromised by self-interference (SI) leakage. This paper investigates the feasibility of SI cancellation (SIC) through the application of symbol-level precoding (SLP). We first derive the target detection probability in the presence of the SI. We then formulate an SLP-based SIC problem, which optimizes the target detection probability while satisfying the quality of service requirements of all users. The formulated problem is a nonconvex fractional programming (FP) problem with a large number of equality and inequality constraints. We propose a penalty-based block coordinate descent (BCD) algorithm for solving the formulated problem, which allows for efficient closed-form updates of each block of variables at each iteration. Finally, numerical simulation results are presented to showcase the enhanced detection performance of the proposed SIC approach.
基于符号级预编码的 ISAC 系统自干扰消除
考虑一个综合传感与通信(ISAC)系统,其中基站(BS)使用全双工无线电同时为多个用户提供服务并探测目标。基站的探测性能可能会受到自干扰(SI)泄漏的影响。本文研究了通过应用符号级预编码(SLP)来消除自干扰(SIC)的可行性。我们首先推导出存在 SI 时的目标检测概率。我们提出了一个基于 SLP 的 SIC 问题,该问题在满足所有用户服务质量要求的同时优化了目标检测概率。我们提出了一种基于忠诚度的块坐标下降 (BCD) 算法来解决所提出的问题,该算法允许在每次迭代时对每块变量进行高效的闭式更新。最后,我们给出了数值仿真结果,以展示所提出的 SIC 方法所增强的检测性能。
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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