人类听觉系统中声调信号频率记忆的可能方法

Margarita Stefanovich
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摘要

兹威克和费尔德凯勒的《光明之路》(Das Ohr als Nachrichten Empfanger)出版于1967年。它通过四个实验来研究人类对音调声音信号的感知。综合分析他们的研究结果,我们可以理解听觉系统是基于位置原则来记忆声音频率的信息的。内毛细胞-基底膜-外毛细胞复合物(ohc - bam - ihc)根据其生物物理特性是一个串联并联谐振电路。在感知调性声音信号的过程中,耳蜗基底膜上信号频率最接近轮廓共振频率的点处,耳蜗基底膜横向振荡幅度最大。听觉系统通过IHC的序列号来存储声音频率的信息,IHC位于具有高受体电位(RP)的一般细胞群的中间。IHC的投影可以看作是一个带有数字化点的测量尺度。具有兴奋性和抑制性输入的神经元在计算机中起着逻辑芯片的作用。神经网络将可听音高的信息以二进制编码的形式存储在一组有序的记忆神经元中。了解人类听觉系统的主要功能原理是提高人工耳蜗语音感知质量的必要条件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Possible Method of Memorizing Tonal Sound Signal Frequency in the Human Auditory System
The book "Das Ohr als Nachrichten Empfanger" by Zwicker and Feldkeller was published in 1967. It four experiments researching into the study of human acoustic sensation in the perception of a tonal sound signal. Comprehensive analysis of their results allows us to understand that the auditory system remembers information regarding the frequency of sound on the basis of on the principle of place. According to their biophysical characteristics the complex of elements Inner Hair Cells-Basilar membrane-Outer Hair Cells (OHC-BM-IHC) is a series connection of parallel resonant circuits. During the process of perceiving a tonal sound signal, the greatest amplitude of the transverse oscillations of the BM of the cochlea is observed at that point of the basilar membrane where the signal frequency is closest to the resonance frequency of the contour. The auditory system stores information about the frequency of the sound through the sequence number of the IHC, located in the middle of the general group of cells with an elevated receptor potential (RP). The projection of IHC can be considered as a measuring scale with digitized points. Neurons with excitatory and inhibitory inputs function as logic chips in a computer. The neural network stores information about the audible pitch as a number in binary code in a group of ordered memory neurons. The understanding of main principles of functioning of human auditory system is necessary for improvement of quality of speech perception through Cochlear Implant.
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