Joint Target Localization and Data Detection in Bistatic ISAC Networks

IF 8.3 2区计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Communications Pub Date : 2024-10-15 DOI:10.1109/TCOMM.2024.3481046

Na Zhao;Qing Chang;Xiao Shen;Yunlong Wang;Yuan Shen

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Abstract

Existing integrated sensing and communication technology designed for monostatic settings segregates sensing and communication (S&C) at distinct terminals, impeding their adaptability to network paradigms. In this paper, we propose a general framework for joint target-localization and data-detection (JTD) in bistatic settings by using a combination of the deterministic known (DK) and random unknown (RU) symbols, e.g., pilot and data symbols. We first derive the performance limits for target localization-related parameters with combined symbols. We demonstrate that the Fisher information matrix (FIM) for target localization using the DK part can be expressed in a closed form through orthogonal projection, while that using the RU part aligns with the modified FIM in monostatic settings at an exponential rate with respect to the signal-to-noise ratio. Then, we propose a JTD scheme to exploit the reciprocal advantages for S&C, i.e., the detected data symbols are harnessed to enhance target localization in an alternating way. Finally, simulation results validate our theoretical analysis and the effectiveness of the proposed JTD scheme.

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双稳态 ISAC 网络中的联合目标定位和数据检测

现有的集成传感和通信技术是为单站设置而设计的，将传感和通信（S&C）隔离在不同的终端上，阻碍了它们对网络范式的适应性。本文提出了一种基于确定性已知（DK）和随机未知（RU）符号（如导频符号和数据符号）的双基地联合目标定位和数据检测（JTD）的通用框架。我们首先推导了组合符号对目标定位相关参数的性能限制。我们证明了使用DK部分用于目标定位的Fisher信息矩阵（FIM）可以通过正交投影以封闭形式表示，而使用RU部分与单静态设置下修改的FIM以相对于信噪比的指数速率一致。然后，我们提出了一种利用互反优势的JTD方案，即利用检测到的数据符号以交替的方式增强目标定位。最后，仿真结果验证了理论分析和JTD方案的有效性。

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来源期刊

IEEE Transactions on Communications 工程技术-电信学

CiteScore

16.10

自引率

8.40%

发文量

528

审稿时长

4.1 months

期刊介绍： The IEEE Transactions on Communications is dedicated to publishing high-quality manuscripts that showcase advancements in the state-of-the-art of telecommunications. Our scope encompasses all aspects of telecommunications, including telephone, telegraphy, facsimile, and television, facilitated by electromagnetic propagation methods such as radio, wire, aerial, underground, coaxial, and submarine cables, as well as waveguides, communication satellites, and lasers. We cover telecommunications in various settings, including marine, aeronautical, space, and fixed station services, addressing topics such as repeaters, radio relaying, signal storage, regeneration, error detection and correction, multiplexing, carrier techniques, communication switching systems, data communications, and communication theory. Join us in advancing the field of telecommunications through groundbreaking research and innovation.