Abstract
A multi-channel noise reduction technique is presented based on a Speech Distortion-Weighted Multi-channel Wiener Filter (SDW-MWF) approach that incorporates the conditional Speech Presence Probability (SPP). A traditional SDW-MWF uses a fixed parameter to a trade-off between noise reduction and speech distortion without taking speech presence into account. Consequently, the improvement in noise reduction comes at the cost of a higher speech distortion since the speech dominant segments and the noise dominant segments are weighted equally. Incorporating the conditional SPP in SDW-MWF allows to exploit the fact that speech may not be present at all frequencies and at all times, while the noise can indeed be continuously present. In speech dominant segments it is then desirable to have less noise reduction to avoid speech distortion, while in noise dominant segments it is desirable to have as much noise reduction as possible. Experimental results with hearing aid scenarios demonstrate that the proposed SDW-MWF incorporating the conditional SPP improves the signal-to-noise ratio compared to a traditional SDW-MWF.
Highlights
IntroductionBackground noise (multiple speakers, traffic, etc.) is a significant problem for hearing aid users and is especially damaging to speech intelligibility
Background noise is a significant problem for hearing aid users and is especially damaging to speech intelligibility
This paper presents an Speech Distortion-Weighted Multi-channel Wiener Filter (SDW-Multi-channel Wiener filter (MWF)) approach that incorporates the conditional Speech Presence Probability (SPP) in the trade-off between noise reduction and speech distortion
Summary
Background noise (multiple speakers, traffic, etc.) is a significant problem for hearing aid users and is especially damaging to speech intelligibility. The basic idea is to steer a beam toward the desired speaker while reducing the background noise coming from other directions Another known multi-channel noise reduction technique is the Multi-channel Wiener filter (MWF) that provides an MMSE estimate of the speech component in one of the microphone signals. The speech may not be present at all frequencies even during voiced speech segments It has been shown in single-channel noise reduction schemes that incorporating the conditional Speech Presence Probability (SPP) in the gain function or in the noise spectrum estimation better performance can be achieved compared to traditional methods [4, 11,12,13].
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