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Autores principales: Kojima, Hayate, Takanami, Keigo, Hara, Junya, Bandoh, Yukihiro, Takamura, Seishi, Higashi, Hiroshi, Tanaka, Yuichi
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2505.22175
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author Kojima, Hayate
Takanami, Keigo
Hara, Junya
Bandoh, Yukihiro
Takamura, Seishi
Higashi, Hiroshi
Tanaka, Yuichi
author_facet Kojima, Hayate
Takanami, Keigo
Hara, Junya
Bandoh, Yukihiro
Takamura, Seishi
Higashi, Hiroshi
Tanaka, Yuichi
contents We propose a denoising method for multimodal graph signals by an alternating minimization scheme that sequentially solves signal restoration and graph learning problems. Many complex-structured data, i.e., those on sensor networks, can capture multiple modalities at each measurement point, referred to as modalities. They are also assumed to have an underlying structure or correlations in modality as well as space. Such multimodal data are regarded as graph signals on a twofold graph and they are often corrupted by noise. Furthermore, their spatial/modality relationships are not always given a priori: We need to estimate twofold graphs during a denoising algorithm. In this paper, we consider a signal denoising method on twofold graphs, where graphs are learned simultaneously. Specifically, the graph learning subproblems are solved using the primal-dual splitting (PDS) algorithm, while the signal update has a closed-form solution. Parameters in this iterative algorithm are learned from training data by unrolling the iteration with deep algorithm unrolling. Experimental results on synthetic and real-world data demonstrate that the proposed method outperforms existing model- and deep learning-based graph signal denoising methods.
format Preprint
id arxiv_https___arxiv_org_abs_2505_22175
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publishDate 2025
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spellingShingle Algorithm Unrolling-based Denoising of Multimodal Graph Signals
Kojima, Hayate
Takanami, Keigo
Hara, Junya
Bandoh, Yukihiro
Takamura, Seishi
Higashi, Hiroshi
Tanaka, Yuichi
Signal Processing
We propose a denoising method for multimodal graph signals by an alternating minimization scheme that sequentially solves signal restoration and graph learning problems. Many complex-structured data, i.e., those on sensor networks, can capture multiple modalities at each measurement point, referred to as modalities. They are also assumed to have an underlying structure or correlations in modality as well as space. Such multimodal data are regarded as graph signals on a twofold graph and they are often corrupted by noise. Furthermore, their spatial/modality relationships are not always given a priori: We need to estimate twofold graphs during a denoising algorithm. In this paper, we consider a signal denoising method on twofold graphs, where graphs are learned simultaneously. Specifically, the graph learning subproblems are solved using the primal-dual splitting (PDS) algorithm, while the signal update has a closed-form solution. Parameters in this iterative algorithm are learned from training data by unrolling the iteration with deep algorithm unrolling. Experimental results on synthetic and real-world data demonstrate that the proposed method outperforms existing model- and deep learning-based graph signal denoising methods.
title Algorithm Unrolling-based Denoising of Multimodal Graph Signals
topic Signal Processing
url https://arxiv.org/abs/2505.22175