Theoretical Guarantees for Sparse Graph Signal Recovery

被引:0
|
作者
Morgenstern, Gal [1 ]
Routtenberg, Tirza [1 ]
机构
[1] Ben Gurion Univ Negev, Sch ECE, IL-84105 Beer Sheva, Israel
来源
IEEE SIGNAL PROCESSING LETTERS | 2025年 / 32卷
基金
以色列科学基金会;
关键词
Coherence; Sparse matrices; Laplace equations; Dictionaries; Atoms; Filtering theory; Upper bound; Sensors; Matrices; Matching pursuit algorithms; Graph signals; graph signal processing (GSP); Laplacian matrix; mutual coherence; sparse recovery; BLIND IDENTIFICATION; RECONSTRUCTION; PERCOLATION; NETWORKS;
D O I
10.1109/LSP.2024.3514800
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
Sparse graph signals have recently been utilized in graph signal processing (GSP) for tasks such as graph signal reconstruction, blind deconvolution, and sampling. In addition, sparse graph signals can be used to model real-world network applications across various domains, such as social, biological, and power systems. Despite the extensive use of sparse graph signals, limited attention has been paid to the derivation of theoretical guarantees on their recovery. In this paper, we present a novel theoretical analysis of the problem of recovering a node-domain sparse graph signal from the output of a first-order graph filter. The graph filter we study is the Laplacian matrix, and we derive upper and lower bounds on its mutual coherence. Our results establish a connection between the recovery performance and the minimal graph nodal degree. The proposed bounds are evaluated via simulations on the Erd & odblac;s-R & eacute;nyi graph.
引用
收藏
页码:266 / 270
页数:5
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