A Linearly Convergent Optimization Framework for Learning Graphs From Smooth Signals

IF 3 3区计算机科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Signal and Information Processing over Networks Pub Date : 2023-08-10 DOI:10.1109/TSIPN.2023.3295770

Xiaolu Wang;Chaorui Yao;Anthony Man-Cho So

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引用次数: 0

Abstract

Learning graph structures from a collection of smooth graph signals is a fundamental problem in data analysis and has attracted much interest in recent years. Although various optimization formulations of the problem have been proposed in the literature, existing methods for solving them either are not practically efficient or lack strong convergence guarantees. In this article, we consider a unified graph learning formulation that captures a wide range of static and time-varying graph learning models and develop a first-order method for solving it. By showing that the set of Karush-Kuhn-Tucker points of the formulation possesses a so-called error bound property , we establish the linear convergence of our proposed method. Moreover, through extensive numerical experiments on both synthetic and real data, we show that our method exhibits sharp linear convergence and can be substantially faster than a host of other existing methods. To the best of our knowledge, our work is the first to develop a first-order method that not only is practically efficient but also enjoys a linear convergence guarantee when applied to a large class of graph learning models.

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从光滑信号学习图的线性收敛优化框架

从平滑图信号的集合中学习图结构是数据分析中的一个基本问题，近年来引起了人们的极大兴趣。尽管文献中已经提出了该问题的各种优化公式，但现有的求解方法要么在实际中不有效，要么缺乏强大的收敛性保证。在本文中，我们考虑了一个统一的图学习公式，它捕获了广泛的静态和时变图学习模型，并开发了一种求解它的一阶方法。通过证明公式的Karush-Kuhn-Tucker点集具有所谓的误差界性质，我们建立了我们提出的方法的线性收敛性。此外，通过对合成数据和真实数据的大量数值实验，我们表明我们的方法表现出敏锐的线性收敛性，并且可以比许多其他现有方法快得多。据我们所知，我们的工作是第一个开发出一阶方法，该方法不仅在实践中有效，而且在应用于一大类图学习模型时具有线性收敛保证。

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 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.