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Optical implementation of neural networks with wavelength-encoded bipolar weight using bacteriorhodopsin

机译：使用细菌视紫红质的波长编码双极性权重的神经网络的光学实现

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摘要

A unique biological molecule is presented that has an intrinsic optoelectrical characteristic which can simulate both excitation and inhibition. This distinctive material is a relative of the visual pigment rhodopsin and is called bacteriorhodopsin (BR). The polarity of the optoelectrical signal induced by BR by light depends on both its photochromic state and the excitation wavelength. This unique characteristic can be used to perform the subtraction operation using incoherent light. An optical implementation of a neural network with wavelength-encoded bipolar interconnections using BR is introduced. In this scheme, the polarity of the interconnection matrix is represented by the wavelength of the light.

机译：提出了一种独特的生物分子，该分子具有固有的光电特性，可以模拟激发和抑制。这种独特的材料是视觉色素视紫红质的近亲，被称为细菌视紫红质（BR）。 BR由光感应的光电信号的极性取决于其光致变色状态和激发波长。这种独特的特性可用于使用非相干光执行减法运算。介绍了使用BR的具有波长编码双极互连的神经网络的光学实现。在该方案中，互连矩阵的极性由光的波长表示。

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《》|1990年|p.3-7|共5页
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Chen; Z.; Takei; H.; Lewis; A.;
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中图分类无线电电子学、电信技术;
关键词
neural networks; biological molecule; optoelectrical characteristic; bacteriorhodopsin; excitation wavelength; subtraction operation; neural network; wavelength-encoded bipolar interconnections; interconnection matrix; biomolecular electronics; neura;

机译：神经网络;生物分子光电特性细菌视紫红质;激发波长减法运算;神经网络;波长编码双极互连;互连矩阵;生物分子电子学神经质;

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专利

1. Implementation of a bipolar neural network using a single optical channel [J] . Zuzhou Yue, Jianmin Gong, Jishu Chen Optical engineering . 1995,第2期

机译：使用单个光通道实现双极神经网络
2. LEGION-based image segmentation by means of spiking neural networks using normalized synaptic weights implemented on a compact scalable neuromorphic architecture [J] . Sanchez Giovanny, Madrenas Jordi, Cosp-Vilella Jordi Neurocomputing . 2019,第AUGa4期

机译：基于尖峰神经网络的LEGION图像分割，使用紧凑型可扩展神经形态架构上实现的标准化突触权重
3. LEGION-based image segmentation by means of spiking neural networks using normalized synaptic weights implemented on a compact scalable neuromorphic architecture [J] . Sanchez Giovanny, Madrenas Jordi, Cosp-Vilella Jordi Neurocomputing . 2019,第Auga4期

机译：基于军团的图像分割，通过使用正规化的突触重量在紧凑的可伸缩神经形状架构上实现的标准化突触重量
4. Optical implementation of neural networks with wavelength-encoded bipolar weight using bacteriorhodopsin [C] . Chen, Z., Takei, . 1990

机译：使用细菌视紫红质的波长编码双极性权重的神经网络的光学实现
5. Algorithms and optical implementations of artificial neural networks. [D] . Yang, Xiang Yang. 1991

机译：人工神经网络的算法和光学实现。
6. Implementation of Lightweight Convolutional Neural Networks via Layer-Wise Differentiable Compression [O] . Huabin Diao, Yuexing Hao, Shaoyun Xu, 2021

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7. Recurrent Neural Networks With Small Weights Implement Definite Memory Machines [O] . Barbara Hammer, Peter Tino 2003

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Optical implementation of neural networks with wavelength-encoded bipolar weight using bacteriorhodopsin

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