小神经网络中相互抑制引起的节律性行为的理论与模拟

AIEE-IRE '62 (Spring) Pub Date : 1899-12-30 DOI:10.1145/1460833.1460854

R. F. Reiss

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引用次数: 74

摘要

在神经元信号处理的特定概念模型的基础上，结合生理学文献中一些不完整的论点和证据，提出了神经元相互抑制产生“多振子效应”的基本理论。描述了探索性仿真实验的结果，并对多振子效应在半自动肌肉控制系统中的可能作用进行了推测。

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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A theory and simulation of rhythmic behavior due to reciprocal inhibition in small nerve nets

On the basis of a specific conceptual model of signal processing in neurons, together with some fragmentary arguments and evidence in physiological literature, an elementary theory of a "multivibrator effect" producible by reciprocally inhibiting neurons is developed. The results of exploratory simulation experiments are described, and speculations on the possible role of the multivibrator effect in semiautomatic muscle control systems are presented.

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AIEE-IRE '62 (Spring)

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