Τετάρτη 30 Δεκεμβρίου 2015

Microscopic prediction of speech intelligibility in spatially distributed speech-shaped noise for normal-hearing listeners

A binaural and psychoacoustically motivated intelligibility model, based on a well-known monaural microscopic model is proposed. This model simulates a phoneme recognition task in the presence of spatially distributed speech-shaped noise in anechoic scenarios. In the proposed model,binaural advantage effects are considered by generating a feature vector for a dynamic-time-warping speech recognizer. This vector consists of three subvectors incorporating two monaural subvectors to model the better-ear hearing, and a binaural subvector to simulate the binaural unmasking effect. The binaural unit of the model is based on equalization-cancellation theory. This model operates blindly, which means separate recordings of speech and noise are not required for the predictions. Speech intelligibility tests were conducted with 12 normal hearing listeners by collecting speech reception thresholds(SRTs) in the presence of single and multiple sources of speech-shaped noise. The comparison of the model predictions with the measuredbinauralSRTs, and with the predictions of a macroscopic binauralmodel called extended equalization-cancellation, shows that this approach predicts the intelligibility in anechoic scenarios with good precision. The square of the correlation coefficient (r2) and the mean-absolute error between the model predictions and the measurements are 0.98 and 0.62 dB, respectively.



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