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Main Authors: Briegleb, Annika, Kellermann, Walter
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2406.11376
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author Briegleb, Annika
Kellermann, Walter
author_facet Briegleb, Annika
Kellermann, Walter
contents When using artificial neural networks for multichannel speech enhancement, filtering is often achieved by estimating a complex-valued mask that is applied to all or one reference channel of the input signal. The estimation of this mask is based on the noisy multichannel signal and, hence, can exploit spatial and spectral cues simultaneously. While it has been shown that exploiting spatial and spectral cues jointly is beneficial for the speech enhancement result, the mechanics of the interplay of the two inside the neural network are still largely unknown. In this contribution, we investigate how two conceptually different neural spatiospectral filters (NSSFs) exploit spatial cues depending on the training target signal and show that, while one NSSF always performs spatial filtering, the other one is selective in leveraging spatial information depending on the task at hand. These insights provide better understanding of the information the NSSFs use to make their prediction and, thus, allow to make informed decisions regarding their design and deployment.
format Preprint
id arxiv_https___arxiv_org_abs_2406_11376
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Spatially constrained vs. unconstrained filtering in neural spatiospectral filters for multichannel speech enhancement
Briegleb, Annika
Kellermann, Walter
Audio and Speech Processing
When using artificial neural networks for multichannel speech enhancement, filtering is often achieved by estimating a complex-valued mask that is applied to all or one reference channel of the input signal. The estimation of this mask is based on the noisy multichannel signal and, hence, can exploit spatial and spectral cues simultaneously. While it has been shown that exploiting spatial and spectral cues jointly is beneficial for the speech enhancement result, the mechanics of the interplay of the two inside the neural network are still largely unknown. In this contribution, we investigate how two conceptually different neural spatiospectral filters (NSSFs) exploit spatial cues depending on the training target signal and show that, while one NSSF always performs spatial filtering, the other one is selective in leveraging spatial information depending on the task at hand. These insights provide better understanding of the information the NSSFs use to make their prediction and, thus, allow to make informed decisions regarding their design and deployment.
title Spatially constrained vs. unconstrained filtering in neural spatiospectral filters for multichannel speech enhancement
topic Audio and Speech Processing
url https://arxiv.org/abs/2406.11376