中枢视觉系统神经元感受野动力学的CNN模型

1998 Fifth IEEE International Workshop on Cellular Neural Networks and their Applications. Proceedings (Cat. No.98TH8359) Pub Date : 1998-04-14 DOI:10.1109/CNNA.1998.685363

L. Orzó, K. László, László Négyessy, J. Hámori, T. Roska

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引用次数: 1

摘要

处理生物学方面的感受野(RF)概念及其可能的细胞神经网络(CNN)建模。讨论了三种感受野的定义:实验测量的感受野、感受野的数学模型和感受野的解剖学背景。以前，新的射频映射技术已经揭示了视觉通路中的神经元表现出惊人的射频动态，这意味着为了充分表征射频轮廓，必须在时空域进行检查。从本研究的这些发现出发，对神经元的静态射频定义进行纯化，并用CNN对De Angelis et al.(1995)的一些实验结果进行建模。我们的CNN模型表明，时空射频动态可以由时不变的突触强度值产生。

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CNN models of receptive field dynamics of the central visual system neurons

Deals with the biological aspects of the receptive field (RF) concept and its possible cellular neural network (CNN) modeling. Three kinds of receptive field definitions are discussed: the experimentally measured RF, the mathematical model of the RF and its anatomical background. Previously, new RF-mapping techniques have revealed that neurons in the visual pathway exhibit striking RF dynamics, which implies that for adequate characterization the RF profile has to be examined in the space-time domain. Starting from these findings in the present study the neurons' static RF definition is purified and some experimental results of De Angelis et al. (1995) are modeled by the CNN. Our CNN model indicates that the spatio-temporal RF dynamics can be generated by time invariant synaptic strength values.

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1998 Fifth IEEE International Workshop on Cellular Neural Networks and their Applications. Proceedings (Cat. No.98TH8359)

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