气味编码作为一个活跃的动态过程：实验、计算与理论

Odor encoding as an active, dynamical process: experiments, computation, and theory.

作者信息

Laurent G, Stopfer M, Friedrich R W, Rabinovich M I, Volkovskii A, Abarbanel H D

机构信息

Division of Biology 139-74, California Institute of Technology, Pasadena, California 91125, USA.

出版信息

Annu Rev Neurosci. 2001;24:263-97. doi: 10.1146/annurev.neuro.24.1.263.

DOI:10.1146/annurev.neuro.24.1.263

PMID:11283312

Abstract

We examine early olfactory processing in the vertebrate and insect olfactory systems, using a computational perspective. What transformations occur between the first and second olfactory processing stages? What are the causes and consequences of these transformations? To answer these questions, we focus on the functions of olfactory circuit structure and on the role of time in odor-evoked integrative processes. We argue that early olfactory relays are active and dynamical networks, whose actions change the format of odor-related information in very specific ways, so as to refine stimulus identification. Finally, we introduce a new theoretical framework ("winnerless competition") for the interpretation of these data.

摘要

我们从计算的角度研究脊椎动物和昆虫嗅觉系统中的早期嗅觉处理过程。在嗅觉处理的第一阶段和第二阶段之间发生了哪些转换？这些转换的原因和后果是什么？为了回答这些问题，我们关注嗅觉回路结构的功能以及时间在气味诱发的整合过程中的作用。我们认为早期嗅觉中继是活跃的动态网络，其作用以非常特定的方式改变与气味相关的信息格式，从而优化刺激识别。最后，我们引入了一个新的理论框架（“无胜者竞争”）来解释这些数据。

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气味编码作为一个活跃的动态过程：实验、计算与理论

Odor encoding as an active, dynamical process: experiments, computation, and theory.

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