XOR learning by spiking neural network with infrared communications

2018 Asia-Pacific Signal and Information Processing Association Annual Summit and Conference (APSIPA ASC) Pub Date : 2018-11-01 DOI:10.23919/APSIPA.2018.8659484

Kazuki Matsumoto, H. Torikai, H. Sekiya

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引用次数: 1

Abstract

A Spiking Neural Network (SNN), which expresses information by spike trains, has an ability to process information with low energy like a human brain. Hardware implementation of a SNN is an important research problem. If the neurons are linked by wireless communications, SNNs can obtain the spatial degree of freedom, which may extend application area dramatically. Additionally, such SNNs can process information with low energy, owing to wireless communication by the spike trains. Therefore, it is regarded as low power-consumption wireless sensor networks (WSNs) with adding the functions of SNN neurons to wireless sensor nodes. This “Wireless Neural Sensor Networks” can distribute information processing like a brain on the WSN nodes. This paper presents a SNN with infrared(IR) communications as the first step of the above concept. Neurons are implemented by field programmable gate array, which are linked by IR communications. The implemented SNN succeeded in acquiring the XOR function through reinforcement learning.

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利用脉冲神经网络与红外通信进行异或学习

通过尖峰序列表达信息的尖峰神经网络(SNN)具有像人脑一样以低能量处理信息的能力。SNN的硬件实现是一个重要的研究问题。如果神经元之间通过无线通信连接，snn可以获得空间自由度，可以极大地扩展应用领域。此外，由于尖峰串的无线通信，这种snn可以以低能量处理信息。因此，将SNN神经元的功能添加到无线传感器节点上，被视为低功耗无线传感器网络(WSNs)。这种“无线神经传感器网络”可以像大脑一样在WSN节点上分配信息处理。本文提出了一个具有红外通信的SNN作为上述概念的第一步。神经元由现场可编程门阵列实现，通过红外通信连接。实现的SNN通过强化学习成功获取异或函数。

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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2018 Asia-Pacific Signal and Information Processing Association Annual Summit and Conference (APSIPA ASC)

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