皮质单细胞:建模生理学和图像处理应用

L. Pessoa, H. Neumann, E. Littmann
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引用次数: 0

摘要

视觉系统生理学的一个基本问题是细胞如何获得它们的感受野特性。本论文解决了皮层简单细胞行为如何通过相关神经回路的规范产生的问题,该神经回路非线性地组合了来自ON和OFF流的输入。模型的响应与Hammond和MacKay(1983)记录中观察到的静态非线性行为密切相关,并表明简单细胞不应该被视为线性装置,因为Hubel和Wiesel(1965)的工作通常被认为是线性装置。我们还用相机图像和人工图像对模型进行了评估。与相应的线性方案相比,我们的电路具有更高的位置选择性(更好的对比度定位),可以用作有效的“边缘检测”算法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cortical simple cells: modeling physiology and image processing applications
One of the fundamental questions in visual system physiology is how cells acquire their receptive field properties. The present paper addresses the question of how cortical simple cell behavior originates through the specification of an associated neural circuit which nonlinearly combines inputs from ON and OFF streams. The responses of the model closely follow the static nonlinear behavior observed in the recordings of Hammond and MacKay (1983) and suggest that simple cells should not be viewed as linear devices as commonly assumed since the work of Hubel and Wiesel (1965). We also evaluate the model with both camera and artificial images. Our circuit exhibits a higher positional selectivity (better contrast localization) when compared to a corresponding linear scheme and can be used as an effective "edge detection" algorithm.
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