Multicenter Evaluation of Signal Enhancement Algorithms for Hearing Aids

Overview

Journal J Acoust Soc Am

Publisher American Institute of Physics

Specialty Otorhinolaryngology

Date 2010 Mar 25

PMID 20329849

Citations 36

Authors

Heleen Luts

Koen Eneman

Jan Wouters

Michael Schulte

Matthias Vormann

Michael Buechler

Norbert Dillier

Rolph Houben

Wouter A Dreschler

Matthias Froehlich

Henning Puder

Giso Grimm

Volker Hohmann

Arne Leijon

Anthony Lombard

Dirk Mauler

Ann Spriet

Affiliations

Soon will be listed here.

Abstract

In the framework of the European HearCom project, promising signal enhancement algorithms were developed and evaluated for future use in hearing instruments. To assess the algorithms' performance, five of the algorithms were selected and implemented on a common real-time hardware/software platform. Four test centers in Belgium, The Netherlands, Germany, and Switzerland perceptually evaluated the algorithms. Listening tests were performed with large numbers of normal-hearing and hearing-impaired subjects. Three perceptual measures were used: speech reception threshold (SRT), listening effort scaling, and preference rating. Tests were carried out in two types of rooms. Speech was presented in multitalker babble arriving from one or three loudspeakers. In a pseudo-diffuse noise scenario, only one algorithm, the spatially preprocessed speech-distortion-weighted multi-channel Wiener filtering, provided a SRT improvement relative to the unprocessed condition. Despite the general lack of improvement in SRT, some algorithms were preferred over the unprocessed condition at all tested signal-to-noise ratios (SNRs). These effects were found across different subject groups and test sites. The listening effort scores were less consistent over test sites. For the algorithms that did not affect speech intelligibility, a reduction in listening effort was observed at 0 dB SNR.

Citing Articles

Benefit of Hearing-Aid Amplification and Signal Enhancement for Speech Reception in Complex Listening Situations.

Jansen T, Hartog L, Oetting D, Hohmann V, Kayser H Trends Hear. 2024; 28:23312165241271407.

PMID: 39397631 PMC: 11475295. DOI: 10.1177/23312165241271407.

Automated Measurement of Speech Recognition, Reaction Time, and Speech Rate and Their Relation to Self-Reported Listening Effort for Normal-Hearing and Hearing-Impaired Listeners Using various Maskers.

Holube I, Taesler S, Ibelings S, Hansen M, Ooster J Trends Hear. 2024; 28:23312165241276435.

PMID: 39311635 PMC: 11421406. DOI: 10.1177/23312165241276435.

The Impact of Hearing Aids on Listening Effort and Listening-Related Fatigue - Investigations in a Virtual Realistic Listening Environment.

Blumer M, Heeren J, Mirkovic B, Latzel M, Gordon C, Crowhen D Trends Hear. 2024; 28:23312165241265199.

PMID: 39095047 PMC: 11378347. DOI: 10.1177/23312165241265199.

Preferred Strength of Noise Reduction for Normally Hearing and Hearing-Impaired Listeners.

Houben R, Reinten I, Dreschler W, Mathijssen R, Dijkstra T Trends Hear. 2023; 27:23312165231211437.

PMID: 37990543 PMC: 10666719. DOI: 10.1177/23312165231211437.

Influence of Age on Speech Recognition in Noise and Hearing Effort in Listeners with Age-Related Hearing Loss.

Rahne T, Wagner T, Kopsch A, Plontke S, Wagner L J Clin Med. 2023; 12(19).

PMID: 37834776 PMC: 10573265. DOI: 10.3390/jcm12196133.