A Distributed Adaptive Algorithm for Non-Smooth Spatial Filtering Problems in Wireless Sensor Networks

IF 4.6 2区工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Signal Processing Pub Date : 2024-10-04 DOI:10.1109/TSP.2024.3474168

Charles Hovine;Alexander Bertrand

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Abstract

A wireless sensor network often relies on a fusion center to process the data collected by each of its sensing nodes. Such an approach relies on the continuous transmission of raw data to the fusion center, which typically has a major impact on the sensors’ battery life. To address this issue in the particular context of spatial filtering and signal fusion problems, we recently proposed the Distributed Adaptive Signal Fusion (DASF) algorithm, which distributively computes a spatial filter expressed as the solution of a smooth optimization problem involving the network-wide sensor signal statistics. In this work, we show that the DASF algorithm can be extended to compute the filters associated with a certain class of non-smooth optimization problems. This extension makes the addition of sparsity-inducing norms to the problem's cost function possible, allowing sensor selection to be performed in a distributed fashion, alongside the filtering task of interest, thereby further reducing the network's energy consumption. We provide a description of the algorithm, prove its convergence, and validate its performance and solution tracking capabilities with numerical experiments.

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无线传感器网络非平滑空间过滤问题的分布式自适应算法

无线传感器网络通常依靠一个融合中心来处理每个传感节点收集的数据。这种方法依赖于向融合中心持续传输原始数据，通常会对传感器的电池寿命产生重大影响。为了在空间滤波和信号融合问题的特殊背景下解决这一问题，我们最近提出了分布式自适应信号融合（DASF）算法，该算法分布式计算空间滤波器，并将其表示为涉及全网传感器信号统计的平滑优化问题的解决方案。在这项工作中，我们证明 DASF 算法可以扩展到计算与某类非平滑优化问题相关的滤波器。这一扩展使得在问题的成本函数中添加稀疏性诱导规范成为可能，从而允许以分布式方式执行传感器选择以及相关过滤任务，从而进一步降低网络能耗。我们对算法进行了描述，证明了其收敛性，并通过数值实验验证了其性能和解决方案跟踪能力。

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

IEEE Transactions on Signal Processing 工程技术-工程：电子与电气

CiteScore

11.20

自引率

9.30%

发文量

310

审稿时长

3.0 months

期刊介绍： The IEEE Transactions on Signal Processing covers novel theory, algorithms, performance analyses and applications of techniques for the processing, understanding, learning, retrieval, mining, and extraction of information from signals. The term “signal” includes, among others, audio, video, speech, image, communication, geophysical, sonar, radar, medical and musical signals. Examples of topics of interest include, but are not limited to, information processing and the theory and application of filtering, coding, transmitting, estimating, detecting, analyzing, recognizing, synthesizing, recording, and reproducing signals.