Inhomogeneous graph trend filtering via a l2,0 cardinality penalty
Inhomogeneous graph trend filtering via a l2,0 cardinality penalty
We study estimation of piecewise smooth signals over a graph. We propose a ℓ2,0-norm penalized Graph Trend Filtering (GTF) model to estimate piecewise smooth graph signals that exhibit inhomogeneous levels of smoothness across the nodes. We prove that the proposed GTF model is simultaneously a k-means clustering on the signal over the nodes and a minimum graph cut on the edges of the graph, where the clustering and the cut share the same assignment matrix. We propose two methods to solve the proposed GTF model: a spectral decomposition method and a method based on simulated annealing. In the experiment on synthetic and real-world datasets, we show that the proposed GTF model has a better performances compared with existing approaches on the tasks of denoising, support recovery and semi-supervised classification. We also show that the proposed GTF model can be solved more efficiently than existing models for the dataset with a large edge set.
Huang, Xiaoqing
6be61982-f21e-4ba1-9737-a37f1e8f7c0c
Ang, Andersen
ed509ecd-39a3-4887-a709-339fdaded867
Huang, Kun
47087d32-81e7-451a-85ab-302674c69053
Zhang, Jie
c44f63ef-a2a0-4209-b201-92bd5b414cfc
Wang, Yijie
52f11931-664c-4fc1-8d0e-b70a1d956f46
4 June 2024
Huang, Xiaoqing
6be61982-f21e-4ba1-9737-a37f1e8f7c0c
Ang, Andersen
ed509ecd-39a3-4887-a709-339fdaded867
Huang, Kun
47087d32-81e7-451a-85ab-302674c69053
Zhang, Jie
c44f63ef-a2a0-4209-b201-92bd5b414cfc
Wang, Yijie
52f11931-664c-4fc1-8d0e-b70a1d956f46
[Unknown type: UNSPECIFIED]
Abstract
We study estimation of piecewise smooth signals over a graph. We propose a ℓ2,0-norm penalized Graph Trend Filtering (GTF) model to estimate piecewise smooth graph signals that exhibit inhomogeneous levels of smoothness across the nodes. We prove that the proposed GTF model is simultaneously a k-means clustering on the signal over the nodes and a minimum graph cut on the edges of the graph, where the clustering and the cut share the same assignment matrix. We propose two methods to solve the proposed GTF model: a spectral decomposition method and a method based on simulated annealing. In the experiment on synthetic and real-world datasets, we show that the proposed GTF model has a better performances compared with existing approaches on the tasks of denoising, support recovery and semi-supervised classification. We also show that the proposed GTF model can be solved more efficiently than existing models for the dataset with a large edge set.
Text
2304.05223v3
- Author's Original
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Published date: 4 June 2024
Identifiers
Local EPrints ID: 491058
URI: http://eprints.soton.ac.uk/id/eprint/491058
PURE UUID: 49d83f83-a19f-436f-8f20-92f6ebc89e22
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Date deposited: 11 Jun 2024 16:50
Last modified: 12 Jun 2024 02:08
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Contributors
Author:
Xiaoqing Huang
Author:
Andersen Ang
Author:
Kun Huang
Author:
Jie Zhang
Author:
Yijie Wang
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