1,659 research outputs found

    Acoustic Impulse Responses for Wearable Audio Devices

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    We present an open-access dataset of over 8000 acoustic impulse from 160 microphones spread across the body and affixed to wearable accessories. The data can be used to evaluate audio capture and array processing systems using wearable devices such as hearing aids, headphones, eyeglasses, jewelry, and clothing. We analyze the acoustic transfer functions of different parts of the body, measure the effects of clothing worn over microphones, compare measurements from a live human subject to those from a mannequin, and simulate the noise-reduction performance of several beamformers. The results suggest that arrays of microphones spread across the body are more effective than those confined to a single device.Comment: To appear at ICASSP 201

    A binaural grouping model for predicting speech intelligibility in multitalker environments

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    Spatially separating speech maskers from target speech often leads to a large intelligibility improvement. Modeling this phenomenon has long been of interest to binaural-hearing researchers for uncovering brain mechanisms and for improving signal-processing algorithms in hearing-assistive devices. Much of the previous binaural modeling work focused on the unmasking enabled by binaural cues at the periphery, and little quantitative modeling has been directed toward the grouping or source-separation benefits of binaural processing. In this article, we propose a binaural model that focuses on grouping, specifically on the selection of time-frequency units that are dominated by signals from the direction of the target. The proposed model uses Equalization-Cancellation (EC) processing with a binary decision rule to estimate a time-frequency binary mask. EC processing is carried out to cancel the target signal and the energy change between the EC input and output is used as a feature that reflects target dominance in each time-frequency unit. The processing in the proposed model requires little computational resources and is straightforward to implement. In combination with the Coherence-based Speech Intelligibility Index, the model is applied to predict the speech intelligibility data measured by Marrone et al. The predicted speech reception threshold matches the pattern of the measured data well, even though the predicted intelligibility improvements relative to the colocated condition are larger than some of the measured data, which may reflect the lack of internal noise in this initial version of the model.R01 DC000100 - NIDCD NIH HH

    Bone conductive implants in single sided deafness

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    Conclusion: The Bone Conductive Implants (BCI) showed to partly restore some of the functions lost when the binaural hearing is missing, such as in the single-sided deafness (SSD) subjects. The adoption of the single BCI needs to be advised by the clinician on the ground of a thorough counselling with the SSD subject. Objectives: To perform an overview of the present possibilities of BCI in SSD and to evaluate the reliability of the audiological evaluation for assessing the speech recognition in noise and the sound localization cues, as major problems related to the loss of binaural hearing. Method: Nine SSD subjects who underwent BCI implantation underwent a pre-operative audiological evaluation, consisting in the soundfield speech audiometry, as word recognition score (WRS) and sound localization, in quiet and in noise. Moreover, they were also tested for the accuracy of directional word recognition in noise and with the subjective evaluation with APHAB questionnaire. Results: The mean maximum percentage of word discrimination was 65.5% in the unaided condition and 78.9% in the BCI condition. The sound localization in noise with the BCI was better than the unaided condition, especially when stimulus and noise were on the same side of the implanted ear. The accuracy of directional word recognition showed to improve with BCI in respect to the unaided condition, in the BCI side, with either the stimulus on the implanted ear and the noise in the contralateral ear, or when both stimulus and noise were deliver to implanted ear

    Effects of Coordinated Bilateral Hearing Aids and Auditory Training on Sound Localization

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    This thesis has two main objectives: 1) evaluating the benefits of the bilateral coordination of the hearing aid Digital Signal Processing (DSP) features by measuring and comparing the auditory performance with and without the activation of this coordination, and 2) evaluating the benefits of acclimatization and auditory training on such auditory performance and, determining whether receiving training in one aspect of auditory performance (sound localization) would generalize to an improvement in another aspect of auditory performance (speech intelligibility in noise), and to what extent. Two studies were performed. The first study evaluated the speech intelligibility in noise and horizontal sound localization abilities in HI listeners using hearing aids that apply bilateral coordination of WDRC. A significant improvement was noted in sound localization with bilateral coordination on when compared to off, while speech intelligibility in noise did not seem to be affected. The second study was an extension of the first study, with a suitable period for acclimatization provided and then the participants were divided into training and control groups. Only the training group received auditory training. The training group performance was significantly better than the control group performance in some conditions, in both the speech intelligibility and the localization tasks. The bilateral coordination did not have significant effects on the results of the second study. This work is among the early literature to investigate the impact of bilateral coordination in hearing aids on the users’ auditory performance. Also, this work is the first to demonstrate the effect of auditory training in sound localization on the speech intelligibility performance

    Processing of spatial sounds in the impaired auditory system

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