触觉感知的仿生策略

2013 IEEE SENSORS Pub Date : 2013-12-19 DOI:10.1109/ICSENS.2013.6688260

W. W. Lee, J. Cabibihan, N. Thakor

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引用次数: 36

摘要

在这项工作中，一个触觉传感系统建立了模式识别使用尖峰神经元。使用基于织物的二元触觉传感器阵列获取触觉信息，并将其转换为模拟皮肤机械感受器的时空尖峰模式。通过物理实验，我们证明了尖峰模式有效地表示了接触物体的局部曲率等信息，这些信息很容易使用基于监督尖峰时序的学习算法进行区分。该分类器分类准确率高(>99%)，收敛速度快(数十个epoch)，表明该分类器利用时空尖峰表征对不同刺激进行了较好的分离。

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Bio-mimetic strategies for tactile sensing

In this work, a tactile sensing system is built for pattern recognition using spiking neurons. Tactile information is acquired using a fabric based binary tactile sensor array and converted into spatiotemporal spiking patterns that mimic mechanoreceptors in the skin. Through physical experiments, we show that the spike patterns efficiently represent information such as local curvature of objects in contact, which are easily distinguished using a supervised spike-timing based learning algorithm. High classification accuracy (>99%) and fast convergence rate (tens of epochs) of the classifier indicates good separation between different stimuli using the spatiotemporal spike representation.

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2013 IEEE SENSORS

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