Sound localization based on improved interaural time difference of cochlear nucleus model: Sound localization based on improved interaural time difference of cochlear nucleus model

Yi Zhang, Wu-chao Xing, Yuan Luo, Chun-jiang He
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Abstract

The sound can be accurately located by human auditory system in noisy environment. The main element to realize the location is interaural time difference. But the effects are unsatisfactory when using interaural time difference to locate in noisy environment. In order to resolve this problem, this thesis put forward a sound source locating system based on cochlear nucleus model, and cochlear nucleus model simulated the process of how cochlear deals with auditory information.The process could draw the synchronization information and firing rate from the reaction of auditory nerve fibers to sound, thus realizing the inhibitory of noise, and locating the sound source in noisy environment. The location error of system in noisy environment was 1. 297 degrees. The experimental results show that the improved sound locating system can complete locating in noisy environment.
基于改进的耳蜗核间时差模型的声音定位:基于改进的耳蜗核间时差模型的声音定位
在嘈杂的环境中,人的听觉系统可以准确地定位声音。实现定位的主要因素是国际时差。但在噪声环境下利用间时差进行定位时,效果并不理想。为了解决这一问题,本文提出了一种基于耳蜗核模型的声源定位系统,耳蜗核模型模拟了耳蜗处理听觉信息的过程。该过程可以从听神经纤维对声音的反应中提取同步信息和发射速率,从而实现对噪声的抑制,并在噪声环境中定位声源。系统在噪声环境下的定位误差为1。297度。实验结果表明,改进后的声定位系统可以在噪声环境下完成定位。
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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