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Flexible Multilayer Tactile Sensor on a Soft Robotic Fingertip

Sriramana Sankar, Ariel Slepyan, Mark M. Iskarous, Rene DeBrabander, Jinghua Zhang, Arnav Gupta, Nitish V. Thakor

发表年份
2022
引用次数
6

摘要

Tactile sensing is an integral aspect of interacting with our environment, where textural information can be essential to properly manipulate objects. Soft robotic fingers are compliant biomimetic solutions for upper-limb prosthesis. Therefore, adding tactile sensing capabilities such as texture discrimination on a soft robotic finger can create a compliant and precise prosthetic hand for an amputee. In this study, we emulate a human fingertip by incorporating a flexible, biomimetic, and multilayered tactile sensor into a soft robotic fingertip for a texture discrimination task where thirteen textures were passively palpated. The sensor was able to achieve a texture classification accuracy of 97.12% when the sensor output was neuromorphically encoded to mimic the receptors in human skin. This work is a step in the direction of a more human-like prosthetic hand to help enhance amputees' perception and interaction with their environment.

关键词

Tactile sensorComputer visionArtificial intelligenceRobotic handComputer scienceTactile perceptionSoft roboticsProsthetic handTactile discriminationTexture (cosmology)

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