计算机科学
多输入多输出
波形
计算机工程
实时计算
电信
波束赋形
雷达
作者
Peng Wang,Dongsheng Han,Yashuai Cao,Wanli Ni,Dusit Niyato
标识
DOI:10.1109/twc.2024.3428705
摘要
Integrated sensing and communication (ISAC) opens up new service possibilities for sixth-generation (6G) systems, where both communication and sensing (C&S) functionalities co-exist by sharing the same hardware platform and radio resource.In this paper, we investigate the waveform design problem in a downlink multi-user and multi-target ISAC system under different C&S performance preferences.The multi-user interference (MUI) may critically degrade the communication performance.To eliminate the MUI, we employ the constructive interference mechanism into the ISAC system, which saves the power budget for communication.However, due to the conflict between C&S metrics, it is intractable for the ISAC system to achieve the optimal performance of C&S objective simultaneously.Therefore, it is important to strike a tradeoff between C&S objectives.By virtue of the multi-objective optimization theory, we propose a weighted Tchebycheff-based transformation method to re-frame the C&S trade-off problem as a Pareto-optimal problem, thus effectively tackling the constraints in ISAC systems.Finally, simulation results reveal the trade-off relation between C&S performances, which provides insights for the flexible waveform design under different C&S performance preferences in MIMO-ISAC systems.
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