Sparse syperparametric Itakura-Saito NMF via Bi-level optimization
Sparse syperparametric Itakura-Saito NMF via Bi-level optimization
The selection of penalty hyperparameters is a critical aspect in Nonnegative Matrix Factorization (NMF), since these values control the trade-off between the reconstruction accuracy and the adherence to desired constraints. In this work, we focus on an NMF problem involving the Itakura-Saito (IS) divergence, effective for extracting low spectral density components from spectrograms of mixed signals, enhanced with sparsity constraints. We propose a new algorithm called SHINBO, which introduces a bi-level optimization framework to automatically and adaptively tune the row-dependent penalty hyperparameters, enhancing the ability of IS-NMF to isolate sparse, periodic signals against noise. Experimental results showed SHINBO ensures precise spectral decomposition and demonstrates superior performance in both synthetic and real-world applications. For the latter, SHINBO is particularly useful, as noninvasive vibration-based fault detection in rolling bearings, where the desired signal components often reside in high-frequency subbands but are obscured by stronger, spectrally broader noise. By addressing the critical issue of hyperparameter selection, SHINBO advances the state-of-the-art in signal recovery for complex, noise-dominated environments.
cs.LG, math.OC
Selicato, Laura
77656e85-1d36-4974-b7fb-8fcf55f7a178
Esposito, Flavia
8dc4f35b-400e-4260-82ae-4cd8fbe2e680
Ang, Andersen
ed509ecd-39a3-4887-a709-339fdaded867
Buono, Nicoletta Del
ea600fc7-edb9-4329-bd17-55a143d9bf80
Zdunek, Rafal
dca1557f-3712-47b2-a7cf-cec989c82beb
24 February 2025
Selicato, Laura
77656e85-1d36-4974-b7fb-8fcf55f7a178
Esposito, Flavia
8dc4f35b-400e-4260-82ae-4cd8fbe2e680
Ang, Andersen
ed509ecd-39a3-4887-a709-339fdaded867
Buono, Nicoletta Del
ea600fc7-edb9-4329-bd17-55a143d9bf80
Zdunek, Rafal
dca1557f-3712-47b2-a7cf-cec989c82beb
[Unknown type: UNSPECIFIED]
Abstract
The selection of penalty hyperparameters is a critical aspect in Nonnegative Matrix Factorization (NMF), since these values control the trade-off between the reconstruction accuracy and the adherence to desired constraints. In this work, we focus on an NMF problem involving the Itakura-Saito (IS) divergence, effective for extracting low spectral density components from spectrograms of mixed signals, enhanced with sparsity constraints. We propose a new algorithm called SHINBO, which introduces a bi-level optimization framework to automatically and adaptively tune the row-dependent penalty hyperparameters, enhancing the ability of IS-NMF to isolate sparse, periodic signals against noise. Experimental results showed SHINBO ensures precise spectral decomposition and demonstrates superior performance in both synthetic and real-world applications. For the latter, SHINBO is particularly useful, as noninvasive vibration-based fault detection in rolling bearings, where the desired signal components often reside in high-frequency subbands but are obscured by stronger, spectrally broader noise. By addressing the critical issue of hyperparameter selection, SHINBO advances the state-of-the-art in signal recovery for complex, noise-dominated environments.
Text
2502.17123v2
- Author's Original
More information
Published date: 24 February 2025
Additional Information:
5 figures, 4 tables
Keywords:
cs.LG, math.OC
Identifiers
Local EPrints ID: 499610
URI: http://eprints.soton.ac.uk/id/eprint/499610
PURE UUID: 97a1d3e4-1c44-4f31-baba-0ff2bf6594ad
Catalogue record
Date deposited: 27 Mar 2025 18:07
Last modified: 28 Mar 2025 03:11
Export record
Altmetrics
Contributors
Author:
Laura Selicato
Author:
Flavia Esposito
Author:
Andersen Ang
Author:
Nicoletta Del Buono
Author:
Rafal Zdunek
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics