Robust graph filter identification and graph denoising from signal observations

Fecha

2023-08-07

Título de la revista

ISSN de la revista

Título del volumen

Editor

Institute of Electrical and Electronics Engineers

Resumen

When facing graph signal processing tasks, it is typically assumed that the graph describing the support of the signals is known. However, in many relevant applications the available graph suffers from observational errors and perturbations . As a result, any method that relies on the graph topology and ignores the presence of perturbations may yield suboptimal results. Motivated by this, we propose a novel approach for handling perturbations on the links of the graph and apply it to the problem of robust graph filter (GF) identification from input-output observations. Different from existing works, we formulate a non-convex optimization problem that operates in the vertex domain and jointly performs GF identification and graph denoising. As a result, on top of learning the desired GF, an estimate of the graph is obtained as a byproduct. To handle the resulting bi-convex problem, we design an algorithm that blends techniques from alternating optimization and majorization minimization, showing its convergence to a stationary point. The second part of the paper i) generalizes the design to a robust setup where several GFs are jointly estimated, and ii) introduces an alternative algorithmic implementation that reduces the computational complexity. Finally, the detrimental influence of the perturbations and the benefits resulting from the robust approach are numerically analyzed over synthetic and real-world datasets, comparing them with other state-of-the-art alternatives

Descripción

Palabras clave

Citación

S. Rey, V. M. Tenorio and A. G. Marqués, "Robust Graph Filter Identification and Graph Denoising From Signal Observations," in IEEE Transactions on Signal Processing, vol. 71, pp. 3651-3666, 2023, doi: 10.1109/TSP.2023.3300632