Distributed Adaptive Signal Fusion for Fractional Programs

IF 3 3区计算机科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Signal and Information Processing over Networks Pub Date : 2025-02-27 DOI:10.1109/TSIPN.2025.3546462

Cem Ates Musluoglu;Alexander Bertrand

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Abstract

The distributed adaptive signal fusion (DASF) is an algorithmic framework that allows solving spatial filtering optimization problems in a distributed and adaptive fashion over a bandwidth-constrained wireless sensor network. The DASF algorithm requires each node to sequentially build a compressed version of the original network-wide problem and solve it locally. However, these local problems can still result in a high computational load at the nodes, especially when the required solver is iterative. In this paper, we study the particular case of fractional programs, i.e., problems for which the objective function is a fraction of two continuous functions, which indeed require such iterative solvers. By exploiting the structure of a commonly used method for solving fractional programs and interleaving it with the iterations of the standard DASF algorithm, we obtain a distributed algorithm with a significantly reduced computational cost compared to the straightforward application of DASF as a meta-algorithm. We prove convergence and optimality of this “fractional DASF” (F-DASF) algorithm and demonstrate its performance via numerical simulations.

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分式程序的分布式自适应信号融合

分布式自适应信号融合（DASF）是一种算法框架，允许在带宽受限的无线传感器网络上以分布式和自适应的方式解决空间滤波优化问题。DASF算法要求每个节点依次构建原始全网问题的压缩版本，并在本地解决该问题。然而，这些局部问题仍然会导致节点上的高计算负荷，特别是当所需的求解器是迭代的时候。本文研究了分数型规划的特殊情况，即目标函数是两个连续函数的分数的问题，这类问题确实需要这样的迭代解。通过利用解决分数程序的常用方法的结构，并将其与标准DASF算法的迭代交叉，我们获得了一个与DASF作为元算法的直接应用相比计算成本显着降低的分布式算法。我们证明了这种“分数阶DASF”（F-DASF）算法的收敛性和最优性，并通过数值模拟验证了它的性能。

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来源期刊

IEEE Transactions on Signal and Information Processing over Networks Computer Science-Computer Networks and Communications

CiteScore

5.80

自引率

12.50%

发文量

期刊介绍： The IEEE Transactions on Signal and Information Processing over Networks publishes high-quality papers that extend the classical notions of processing of signals defined over vector spaces (e.g. time and space) to processing of signals and information (data) defined over networks, potentially dynamically varying. In signal processing over networks, the topology of the network may define structural relationships in the data, or may constrain processing of the data. Topics include distributed algorithms for filtering, detection, estimation, adaptation and learning, model selection, data fusion, and diffusion or evolution of information over such networks, and applications of distributed signal processing.