Adaptive Noise Cancellation for Hearing-Aid Application

Final Program and Paper Summaries 1991 IEEE ASSP Workshop on Applications of Signal Processing to Audio and Acoustics Pub Date : 1900-01-01 DOI:10.1109/ASPAA.1991.634119

H. Levitt, T. Schwander, M. Weiss

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Abstract

Noise reduction systems using two or more microphones are generally more effectj-ve than single-microphone systems. Under ideal conditions, an adaptive two-microphone system with one microphone placed at, the noise source can achieve perfect cancellation. For hearing-aid applications it is not usually practical to place a microphone at or near the noise source. It is possible, however, to mount both microphones on the head with a directional microphone facing the noise source and an omnidirectional microphone picking up speech plus noise. In practice, there is continual movement of the head relative to the speech and noise sourc:es which may adversely affect the adaptive cancellation algorithm. Another practical problem is that of room reverberation. A head-mounted two microphone adaptive noise cancellation system was evaluated experimentally in an anechoic chamber and in rooms, with reverberation times of up to 0.6 seconds. Significant improvements in speech intelligibility were obtained with both normal-hearing and hearing-impaired listeners.

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助听器应用的自适应噪声消除

使用两个或更多麦克风的降噪系统通常比单麦克风系统更有效。在理想条件下，自适应双传声器系统在噪声源处放置一个传声器，可以实现完美的降噪。对于助听器应用来说，在噪声源处或附近放置麦克风通常是不实际的。但是，可以将两个麦克风都安装在头上，其中一个面向噪声源的方向麦克风和一个拾取语音和噪声的全向麦克风。在实践中，头部相对于语音和噪声源的持续运动可能会对自适应抵消算法产生不利影响。另一个实际问题是室内混响。对头戴式双麦克风自适应消噪系统进行了消声室和室内实验，混响时间可达0.6秒。听力正常和听力受损的听者在言语清晰度方面都有显著改善。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Final Program and Paper Summaries 1991 IEEE ASSP Workshop on Applications of Signal Processing to Audio and Acoustics

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