光学花边用于合成传入神经网络。

Optical Lace for Synthetic Afferent Neural Networks.

机构信息

Department of Mechanical and Aerospace Engineering, Cornell University, Ithaca, NY, 14850, USA.

Center for Synaptic Neuroscience and Technology, Istituto Italiano di Tecnologia, Genova, Italy.

出版信息

Sci Robot. 2019 Sep 25;4(34). doi: 10.1126/scirobotics.aaw6304. Epub 2019 Sep 11.

DOI:10.1126/scirobotics.aaw6304

PMID:31723716

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6853625/

Abstract

While vision dominates sensing in robots, animals with limited vision deftly navigate their environment using other forms of perception such as touch. Efforts have been made to apply artificial skins with tactile sensing to robots for similarly sophisticated mobile and manipulative skills. The ability to functionally mimic the afferent sensory neural network, required for distributed sensing and communication networks throughout the body is still missing. This limitation is partially due to the lack of cointegration of the mechanosensors in the body of the robot. In this paper, lacings of stretchable optical fibers distributed throughout 3D printed elastomer frameworks create a cointegrated body, sensing, and communication network. This soft, functional structure can localize deformation with sub-millimeter positional accuracy (Err = 0.71 mm), and sub-Newton force resolution (~0.3 N).

摘要

虽然视觉在机器人中占据主导地位，但视觉有限的动物却能巧妙地利用触觉等其他感知形式来导航环境。人们已经努力将具有触觉感应功能的人工皮肤应用于机器人，以获得类似的复杂移动和操作技能。目前仍然缺乏用于分布式传感和通信网络的感觉神经输入网络的功能模拟，这在一定程度上是由于机器人主体中机械传感器的集成不足。在本文中，分布在 3D 打印弹性体框架中的可拉伸光纤的系带构成了一个集成的传感和通信网络。这种柔软的功能结构可以以亚毫米的位置精度（误差=0.71 毫米）和亚牛顿的力分辨率（约 0.3N）定位变形。

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