气味编码原理与用于气味辨别的神经网络。

Principles of odor coding and a neural network for odor discrimination.

作者信息

Schild D

机构信息

Physiologisches Institut der Universität Göttingen, Federal Republic of Germany.

出版信息

Biophys J. 1988 Dec;54(6):1001-11. doi: 10.1016/S0006-3495(88)83038-8.

DOI:10.1016/S0006-3495(88)83038-8

PMID:3233263

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1330413/

Abstract

A concept of olfactory coding is proposed. It describes the stimulus responses of all receptor cells by the use of vector spaces. The morphological convergence pattern between receptor cells and glomeruli is given in the same vector space as the receptor cell activities. The overall input of a glomerulus follows as the scalar product of the receptor cell activity vector and the vector of the glomerulus' convergence pattern. The proposed coding concept shows how the network of the olfactory bulb succeeds in discriminating odors with high selectivity. It is concluded that sets of mitral cells coding similar odors work very much in the way of mutually inhibited matched filters. This solves one main problem both in olfaction as well as real-time odor detection by an artificial nose, i.e., how the fairly low degree of selectivity of receptor cells or sensors is overcome by the neural network following the receptor stage. The formal description of olfactory coding suggests that quality perception which is invariant under concentration shifts is accomplished by an associative memory in the olfactory bulb.

摘要

提出了一种嗅觉编码概念。它通过向量空间来描述所有受体细胞的刺激反应。受体细胞与肾小球之间的形态学汇聚模式与受体细胞活动处于同一向量空间。肾小球的总体输入是受体细胞活动向量与肾小球汇聚模式向量的标量积。所提出的编码概念展示了嗅球网络如何成功地以高选择性区分气味。得出的结论是，编码相似气味的一组二尖瓣细胞的工作方式非常类似于相互抑制的匹配滤波器。这解决了嗅觉以及人工鼻实时气味检测中的一个主要问题，即受体阶段之后的神经网络如何克服受体细胞或传感器相当低的选择性程度。嗅觉编码的形式化描述表明，在浓度变化下不变的质量感知是由嗅球中的联想记忆实现的。

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