感觉神经网络及其适应性

[1991] IEEE Pacific Rim Conference on Communications, Computers and Signal Processing Conference Proceedings Pub Date : 1991-05-09 DOI:10.1109/PACRIM.1991.160726

R. B. Pinter, R. Darling

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引用次数: 0

摘要

研究了昆虫视网膜和视叶等感觉神经系统的信号处理原理，以期推导模拟集成电路外围(早期)处理系统的设计原理。生物视觉系统的基本外周加工原理是增益适应和侧抑制。研究了非线性侧抑制在生物和人工神经网络中的应用。由于横向抑制只涉及细胞之间的近邻相互作用，因此单片集成光电探测器阵列形式的光电实现特别有吸引力。它们在机器视觉、光学扫描和图像增强方面具有广泛的实用性。这样的实现完全是模拟的，并且可以设计为每个单边互连只需要一个晶体管。

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Sensory neural networks and their adaptations

The signal processing principles utilized in sensory neural systems such as the retina and optic lobes of insects are studied with a view to deriving principles for design of analog integrated circuit peripheral (early) processing systems. The basic peripheral processing principles in biological visual systems are gain adaptation and lateral inhibition. The utility, both in biological and artificial neural networks, of nonlinear lateral inhibition is examined. Because lateral inhibition involves only near neighbor interactions between cells, optoelectronic implementations in the form of monolithically integrated photodetector arrays are particularly attractive. These have wide practical applicability for machine vision, optical scanning, and image enhancement purposes. Such implementations are completely analog and can be designed to require only one transistor per unilateral interconnection.<>

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来源期刊

[1991] IEEE Pacific Rim Conference on Communications, Computers and Signal Processing Conference Proceedings

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