Distributed multi-sensor multi-target tracking with fault detection and exclusion using belief propagation

IF 2.9 3区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Digital Signal Processing Pub Date : 2024-10-03 DOI:10.1016/j.dsp.2024.104797

Yanbo Xue, Yunfei Guo, Dongsheng Yang, Hao Zhang, Han Shen-tu

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Abstract

Multi-sensor multi-target tracking (MMT) is widely used in civilian and military fields. However, as the number of sensor nodes increases, so does the probability of the sensor node faults corrupting the system. In order to guarantee the tracking performance in the presence of faulty sensors, a distributed MMT algorithm in clutter with sensor fault detection and exclusion under the belief propagation framework (FDE-BP) is proposed in this paper. Firstly, a novel FDE method using the fused residual is proposed to detect the faulty sensors in clutter. To ensure the independence among the fused residuals of different targets, a measurement partition method based on the assignment matrix is proposed. The partition of measurements makes the factor graph have a tree structure rather than a loop one, which reduces the computational complexity. Secondly, the MMT problem is presented by a factor graph model to fuse the information among distributed sensor nodes, and a Gaussian version of FDE-BP is derived. The simulation results show that the proposed FDE-BP algorithm can guarantee the tracking performance in the presence of different types of sensor faults.

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利用信念传播进行故障检测和排除的分布式多传感器多目标跟踪

多传感器多目标跟踪（MMT）被广泛应用于民用和军用领域。然而，随着传感器节点数量的增加，传感器节点故障破坏系统的概率也在增加。为了保证故障传感器存在时的跟踪性能，本文提出了一种杂波中的分布式 MMT 算法，并在信念传播框架下进行传感器故障检测和排除（FDE-BP）。首先，本文提出了一种使用融合残差的新型 FDE 方法来检测杂波中的故障传感器。为了确保不同目标的融合残差之间的独立性，本文提出了一种基于赋值矩阵的测量分区方法。测量分区使因子图成为树状结构而非环状结构，从而降低了计算复杂度。其次，通过因子图模型提出了 MMT 问题，以融合分布式传感器节点之间的信息，并推导出高斯版本的 FDE-BP。仿真结果表明，所提出的 FDE-BP 算法能在不同类型的传感器故障情况下保证跟踪性能。

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来源期刊

Digital Signal Processing 工程技术-工程：电子与电气

CiteScore

5.30

自引率

17.20%

发文量

435

审稿时长

66 days

期刊介绍： Digital Signal Processing: A Review Journal is one of the oldest and most established journals in the field of signal processing yet it aims to be the most innovative. The Journal invites top quality research articles at the frontiers of research in all aspects of signal processing. Our objective is to provide a platform for the publication of ground-breaking research in signal processing with both academic and industrial appeal. The journal has a special emphasis on statistical signal processing methodology such as Bayesian signal processing, and encourages articles on emerging applications of signal processing such as: • big data• machine learning• internet of things• information security• systems biology and computational biology,• financial time series analysis,• autonomous vehicles,• quantum computing,• neuromorphic engineering,• human-computer interaction and intelligent user interfaces,• environmental signal processing,• geophysical signal processing including seismic signal processing,• chemioinformatics and bioinformatics,• audio, visual and performance arts,• disaster management and prevention,• renewable energy,