10 results on '"Moonen, Marc"'
Search Results
2. Speech intelligibility improvements with hearing aids using bilateral and binaural adaptive multichannel Wiener filtering based noise reduction.
- Author
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Cornelis B, Moonen M, and Wouters J
- Subjects
- Acoustics instrumentation, Analysis of Variance, Auditory Threshold physiology, Humans, Noise prevention & control, Perceptual Masking physiology, Signal-To-Noise Ratio, Algorithms, Hearing Aids, Hearing Loss, Sensorineural physiopathology, Speech Intelligibility physiology
- Abstract
This paper evaluates noise reduction techniques in bilateral and binaural hearing aids. Adaptive implementations (on a real-time test platform) of the bilateral and binaural speech distortion weighted multichannel Wiener filter (SDW-MWF) and a competing bilateral fixed beamformer are evaluated. As the SDW-MWF relies on a voice activity detector (VAD), a realistic binaural VAD is also included. The test subjects (both normal hearing subjects and hearing aid users) are tested by an adaptive speech reception threshold (SRT) test in different spatial scenarios, including a realistic cafeteria scenario with nonstationary noise. The main conclusions are: (a) The binaural SDW-MWF can further improve the SRT (up to 2 dB) over the improvements achieved by bilateral algorithms, although a significant difference is only achievable if the binaural SDW-MWF uses a perfect VAD. However, in the cafeteria scenario only the binaural SDW-MWF achieves a significant SRT improvement (2.6 dB with perfect VAD, 2.2 dB with real VAD), for the group of hearing aid users. (b) There is no significant degradation when using a real VAD at the input signal-to-noise ratio (SNR) levels where the hearing aid users reach their SRT. (c) The bilateral SDW-MWF achieves no SRT improvements compared to the bilateral fixed beamformer.
- Published
- 2012
- Full Text
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3. Evaluation of feedback reduction techniques in hearing aids based on physical performance measures.
- Author
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Spriet A, Moonen M, and Wouters J
- Subjects
- Acoustic Stimulation, Algorithms, Artifacts, Equipment Design, Feedback, Materials Testing, Models, Theoretical, Noise, Hearing Aids, Signal Processing, Computer-Assisted
- Abstract
This paper presents a physical evaluation of four feedback cancellation techniques in commercial hearing aids and two implementations of a recently developed feedback cancellation algorithm. Based on physical measures for detecting instability, oscillations and distortion, three performance aspects were measured: 1) the added stable gain compared to the hearing aid operating without feedback reduction for white noise as well as for spectrally colored input signals in two static acoustic conditions, 2) the amount of feedback, oscillations and distortion at gain values below the maximum stable gain, 3) the ability to track feedback path changes. Added stable gains between 3 dB and 26 dB were identified. Five of the six techniques achieve worse feedback reduction for a tonal opera input signal than for a speech input signal. Preventing the feedback canceller to drift away from an initial feedback path measurement results in improved performance for tonal signals at the expense of a worse feedback reduction in the acoustic conditions that differ from the condition for which the initialization was performed, as well as a worse tracking of feedback path changes. Repeated measures indicated that the reproducibility of the test set-up is crucial, in particular when the hearing aid operates close to instability.
- Published
- 2010
- Full Text
- View/download PDF
4. Amplification of interaural level differences improves sound localization in acoustic simulations of bimodal hearing.
- Author
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Francart T, Van den Bogaert T, Moonen M, and Wouters J
- Subjects
- Acoustic Stimulation, Adult, Algorithms, Analysis of Variance, Cochlear Implants, Cues, Hearing Loss, Humans, Noise, Psychoacoustics, Young Adult, Computer Simulation, Ear, Hearing, Models, Neurological, Sound Localization
- Abstract
Users of a cochlear implant and contralateral hearing aid are sensitive to interaural level differences (ILDs). However, when using their clinical devices, most of these subjects cannot use ILD cues for localization in the horizontal plane. This is partly due to a lack of high-frequency residual hearing in the acoustically stimulated ear. Using acoustic simulations of a cochlear implant and hearing loss, it is shown that localization performance can be improved by up to 14 degrees rms error relative to 48 degrees rms error for broadband noise by artificially introducing ILD cues in the low frequencies. The algorithm that was used for ILD introduction is described.
- Published
- 2009
- Full Text
- View/download PDF
5. Optimal electrode selection for multi-channel electroencephalogram based detection of auditory steady-state responses.
- Author
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Van Dun B, Wouters J, and Moonen M
- Subjects
- Acoustic Stimulation, Adult, Algorithms, Artifacts, Auditory Threshold physiology, Evoked Potentials, Auditory, Female, Humans, Male, Models, Theoretical, Young Adult, Auditory Cortex physiology, Auditory Perception physiology, Brain Stem physiology, Electrodes, Electroencephalography instrumentation, Electroencephalography methods
- Abstract
Auditory steady-state responses (ASSRs) are used for hearing threshold estimation at audiometric frequencies. Hearing impaired newborns, in particular, benefit from this technique as it allows for a more precise diagnosis than traditional techniques, and a hearing aid can be better fitted at an early age. However, measurement duration of current single-channel techniques is still too long for clinical widespread use. This paper evaluates the practical performance of a multi-channel electroencephalogram (EEG) processing strategy based on a detection theory approach. A minimum electrode set is determined for ASSRs with frequencies between 80 and 110 Hz using eight-channel EEG measurements of ten normal-hearing adults. This set provides a near-optimal hearing threshold estimate for all subjects and improves response detection significantly for EEG data with numerous artifacts. Multi-channel processing does not significantly improve response detection for EEG data with few artifacts. In this case, best response detection is obtained when noise-weighted averaging is applied on single-channel data. The same test setup (eight channels, ten normal-hearing subjects) is also used to determine a minimum electrode setup for 10-Hz ASSRs. This configuration allows to record near-optimal signal-to-noise ratios for 80% of subjects.
- Published
- 2009
- Full Text
- View/download PDF
6. Speech enhancement with multichannel Wiener filter techniques in multimicrophone binaural hearing aids.
- Author
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Van den Bogaert T, Doclo S, Wouters J, and Moonen M
- Subjects
- Adult, Aged, Female, Humans, Male, Middle Aged, Noise, Speech Reception Threshold Test, Hearing Aids, Speech Perception
- Abstract
This paper evaluates speech enhancement in binaural multimicrophone hearing aids by noise reduction algorithms based on the multichannel Wiener filter (MWF) and the MWF with partial noise estimate (MWF-N). Both algorithms are specifically developed to combine noise reduction with the preservation of binaural cues. Objective and perceptual evaluations were performed with different speech-in-multitalker-babble configurations in two different acoustic environments. The main conclusions are as follows: (a) A bilateral MWF with perfect voice activity detection equals or outperforms a bilateral adaptive directional microphone in terms of speech enhancement while preserving the binaural cues of the speech component. (b) A significant gain in speech enhancement is found when transmitting one contralateral microphone signal to the MWF active at the ipsilateral hearing aid. Adding a second contralateral microphone showed a significant improvement during the objective evaluations but not in the subset of scenarios tested during the perceptual evaluations. (c) Adding the partial noise estimate to the MWF, done to improve the spatial awareness of the hearing aid user, reduces the amount of speech enhancement in a limited way. In some conditions the MWF-N even outperformed the MWF possibly due to an improved spatial release from masking.
- Published
- 2009
- Full Text
- View/download PDF
7. The effect of multimicrophone noise reduction systems on sound source localization by users of binaural hearing aids.
- Author
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Van den Bogaert T, Doclo S, Wouters J, and Moonen M
- Subjects
- Adult, Amplifiers, Electronic, Equipment Design, Female, Humans, Male, Models, Theoretical, Physics instrumentation, Psychoacoustics, Hearing Aids, Hearing Disorders therapy, Noise prevention & control, Sound Localization
- Abstract
This paper evaluates the influence of three multimicrophone noise reduction algorithms on the ability to localize sound sources. Two recently developed noise reduction techniques for binaural hearing aids were evaluated, namely, the binaural multichannel Wiener filter (MWF) and the binaural multichannel Wiener filter with partial noise estimate (MWF-N), together with a dual-monaural adaptive directional microphone (ADM), which is a widely used noise reduction approach in commercial hearing aids. The influence of the different algorithms on perceived sound source localization and their noise reduction performance was evaluated. It is shown that noise reduction algorithms can have a large influence on localization and that (a) the ADM only preserves localization in the forward direction over azimuths where limited or no noise reduction is obtained; (b) the MWF preserves localization of the target speech component but may distort localization of the noise component. The latter is dependent on signal-to-noise ratio and masking effects; (c) the MWF-N enables correct localization of both the speech and the noise components; (d) the statistical Wiener filter approach introduces a better combination of sound source localization and noise reduction performance than the ADM approach.
- Published
- 2008
- Full Text
- View/download PDF
8. Horizontal localization with bilateral hearing aids: without is better than with.
- Author
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Van den Bogaert T, Klasen TJ, Moonen M, Van Deun L, and Wouters J
- Subjects
- Acoustic Stimulation, Adult, Aged, Analysis of Variance, Case-Control Studies, Female, Humans, Male, Middle Aged, Psychoacoustics, Sound Spectrography, Hearing Aids, Hearing Loss, Sensorineural physiopathology, Sound Localization physiology
- Abstract
This paper studies the effect of bilateral hearing aids on directional hearing in the frontal horizontal plane. Localization tests evaluated bilateral hearing aid users using different stimuli and different noise scenarios. Normal hearing subjects were used as a reference. The main research questions raised in this paper are: (i) How do bilateral hearing aid users perform on a localization task, relative to normal hearing subjects? (ii) Do bilateral hearing aids preserve localization cues, and (iii) Is there an influence of state of the art noise reduction algorithms, more in particular an adaptive directional microphone configuration, on localization performance? The hearing aid users were tested without and with their hearing aids, using both a standard omnidirectional microphone configuration and an adaptive directional microphone configuration. The following main conclusions are drawn. (i) Bilateral hearing aid users perform worse than normal hearing subjects in a localization task, although more than one-half of the subjects reach normal hearing performance when tested unaided. For both groups, localization performance drops significantly when acoustical scenarios become more complex. (ii) Bilateral, i.e., independently operating hearing aids do not preserve localization cues. (iii) Overall, adaptive directional noise reduction can have an additional and significant negative impact on localization performance.
- Published
- 2006
- Full Text
- View/download PDF
9. Factors affecting the use of noise-band vocoders as acoustic models for pitch perception in cochlear implants.
- Author
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Laneau J, Moonen M, and Wouters J
- Subjects
- Acoustic Stimulation, Adult, Analysis of Variance, Case-Control Studies, Female, Humans, Male, Middle Aged, Noise, Psychometrics, Time Factors, Time Perception physiology, Cochlear Implants, Models, Biological, Pitch Discrimination physiology
- Abstract
Although in a number of experiments noise-band vocoders have been shown to provide acoustic models for speech perception in cochlear implants (CI), the present study assesses in four experiments whether and under what limitations noise-band vocoders can be used as an acoustic model for pitch perception in CI. The first two experiments examine the effect of spectral smearing on simulated electrode discrimination and fundamental frequency (FO) discrimination. The third experiment assesses the effect of spectral mismatch in an FO-discrimination task with two different vocoders. The fourth experiment investigates the effect of amplitude compression on modulation rate discrimination. For each experiment, the results obtained from normal-hearing subjects presented with vocoded stimuli are compared to results obtained directly from CI recipients. The results show that place pitch sensitivity drops with increased spectral smearing and that place pitch cues for multi-channel stimuli can adequately be mimicked when the discriminability of adjacent channels is adjusted by varying the spectral slopes to match that of CI subjects. The results also indicate that temporal pitch sensitivity is limited for noise-band carriers with low center frequencies and that the absence of a compression function in the vocoder might alter the saliency of the temporal pitch cues.
- Published
- 2006
- Full Text
- View/download PDF
10. Relative contributions of temporal and place pitch cues to fundamental frequency discrimination in cochlear implantees.
- Author
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Laneau J, Wouters J, and Moonen M
- Subjects
- Adult, Cues, Differential Threshold, Female, Humans, Male, Middle Aged, Prosthesis Design, Sound Spectrography, Speech Acoustics, Cochlear Implantation, Deafness rehabilitation, Orientation, Pitch Discrimination, Speech Perception, Time Perception
- Abstract
The effect of the filter bank on fundamental frequency (F0) discrimination was examined in four Nucleus CI24 cochlear implant subjects for synthetic stylized vowel-like stimuli. The four tested filter banks differed in cutoff frequencies, amount of overlap between filters, and shape of the filters. To assess the effects of temporal pitch cues on F0 discrimination, temporal fluctuations were removed above 10 Hz in one condition and above 200 Hz in another. Results indicate that F0 discrimination based upon place pitch cues is possible, but just-noticeable differences exceed 1 octave or more depending on the filter bank used. Increasing the frequency resolution in the F0 range improves the F0 discrimination based upon place pitch cues. The results of F0 discrimination based upon place pitch agree with a model that compares the centroids of the electrical excitation pattern. The addition of temporal fluctuations up to 200 Hz significantly improves F0 discrimination. Just-noticeable differences using both place and temporal pitch cues range from 6% to 60%. Filter banks that do not resolve the higher harmonics provided the best temporal pitch cues, because temporal pitch cues are clearest when the fluctuation on all channels is at F0 and preferably in phase.
- Published
- 2004
- Full Text
- View/download PDF
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