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KMID : 1137820070280020271
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ÀÇ°øÇÐȸÁö
2007 Volume.28 No. 2 p.271 ~ p.279
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Performance Evaluation of Cochlear Implants Speech Processing Strategy Using Neural Spike Train Decoding
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Kim Doo-Hee
Kim Jin-Ho
Kim Kyung-Hwan
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Abstract
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We suggest a novel method for the evaluation of cochlear implant (CI) speech processing strategy based on neural spike train decoding. From formant trajectories of input speech and auditory nerve responses responding to the electrical pulse trains generated from a specific CI speech processing strategy, optimal linear decoding filter was obtained, and used to estimate formant trajectory of incoming speech. Performance of a specific strategy is evaluated by comparing true and estimated formant trajectories. We compared a newly-developed strategy rooted from a closer mimicking of auditory periphery using nonlinear time-varying filter, with a conventional linear-filter-based strategy. It was shown that the formant trajectories could be estimated more exactly in the case of the nonlinear time-varying strategy. The superiority was more prominent when background noise level is high, and the spectral characteristic of the background noise was close to that of speech signals. This confirms the superiority observed from other evaluation methods, such as acoustic simulation and spectral analysis.
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KEYWORD
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cochlear implants, speech processing strategy, neural spike train decoding
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