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ISCA Tutorial and Research Workshop on Statistical and Perceptual Audio ProcessingICC Jeju, Korea |
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ISCA Tutorial and Research Workshop on Statistical and Perceptual Audio ProcessingICC Jeju, Korea |
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In this paper we develop a physiologically motivated model of peripheral auditory processing and evaluate how the different processing steps influence automatic speech recognition in noise. The model features large dynamic compression (>60 dB) and a realistic sensory cell model. The compression range was well matched to the limited dynamic range of the sensory cells and the model yielded surprisingly high recognition scores. We also developed a computationally efficient simplified model of auditory processing and found that a model of adaptation could improve recognition accuracy. Adaptation is a basic principle of neuronal processing, which accentuates signal onsets. Applying this adaptation model to melfrequency cepstral coefficient (MFCC) feature extraction enhanced recognition accuracy in noise (AURORA 2 task, averaged recognition scores) from 56.4% to 75.6% (clean training condition), a relative improvement of 41% in word error rate. Adaptation outperformed RASTA processing by more than 10%, which corresponds to a relative improvement of 31%.
Bibliographic reference. Hemmert, Werner / Holmberg, Marcus / Gelbart, David (2004): "Auditory-based automatic speech recognition", In SAPA-2004, paper 74.