IM-OFDM ISAC Outperforms OFDM ISAC by Combining Multiple Sensing Observations

IF 5.3 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Hugo Hawkins;Chao Xu;Lie-Liang Yang;Lajos Hanzo
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引用次数: 0

Abstract

Index Modulated Orthogonal Frequency-Division Multiplexing (IM-OFDM) based Integrated Sensing and Communication (ISAC) is potentially capable of outperforming Orthogonal Frequency-Division Multiplexing (OFDM) ISAC, since Index Modulation (IM) concentrates increased power on the activated subcarriers. This has been confirmed by authoritative publications for the IM-OFDM communication component. However, no evidence is found in the open literature that IM-OFDM sensing is capable of outperforming OFDM sensing, because the blank subcarriers impair the system's sensing functionality. The existing solutions either insert a radar signal into the deactivated subcarriers, thereby using a radar signal for sensing, or employ compressed sensing, which leads to a lower sensing performance than OFDM ISAC. Hence, a novel low complexity algorithm is proposed for ensuring that an IM-OFDM ISAC system outperforms its OFDM ISAC counterpart for both communication and sensing. The algorithm collects observations of the received signal to “fill in” the blank subcarriers in the sensing data created by IM-OFDM, whilst taking advantage of the increased subcarrier power attained by activating fewer subcarriers. This occurs over multiple transmit frames, which inevitably delays the target estimation. As OFDM sensing assumes low target velocities, this delay is shown to have a negligible impact on the sensing performance of IM-OFDM. The simulation results show that IM-OFDM ISAC is indeed capable of outperforming its OFDM ISAC counterpart for both sensing and communication. The impact of block interleaving and of the modulation type on the sensing performance is also discussed.
IM-OFDM ISAC 通过结合多种传感观测优于 OFDM ISAC
基于索引调制正交频分复用技术(IM-OFDM)的综合传感与通信技术(ISAC)有可能超越正交频分复用技术(OFDM)的综合传感与通信技术,因为索引调制(IM)将更大的功率集中在激活的子载波上。IM-OFDM 通信组件的权威出版物已经证实了这一点。然而,在公开文献中找不到任何证据表明 IM-OFDM 传感性能优于 OFDM 传感,因为空白子载波会损害系统的传感功能。现有的解决方案要么在停用的子载波中插入雷达信号,从而使用雷达信号进行传感,要么采用压缩传感,但压缩传感会导致传感性能低于 OFDM ISAC。因此,我们提出了一种新型低复杂度算法,以确保 IM-OFDM ISAC 系统在通信和传感方面都优于 OFDM ISAC 系统。该算法收集对接收信号的观测数据,以 "填补" IM-OFDM 创建的传感数据中的空白子载波,同时利用激活较少子载波而增加的子载波功率。这需要多个发送帧,不可避免地会延迟目标估计。由于 OFDM 传感假定目标速度较低,因此这种延迟对 IM-OFDM 传感性能的影响可以忽略不计。仿真结果表明,IM-OFDM ISAC 的传感和通信性能确实优于 OFDM ISAC。此外,还讨论了块交错和调制类型对传感性能的影响。
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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来源期刊
CiteScore
9.60
自引率
0.00%
发文量
25
审稿时长
10 weeks
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