A Bio‐Inspired Artificial Tactile Sensing System Based on Optical Microfiber and Enhanced by Neural Network

Junjie Weng; Siyang Xiao; Yang Yu; Jianfa Zhang; Jian Chen; Dongying Wang; Zhencheng Wang; Jianqiao Liang; Hansi Ma; Junbo Yang; Tianwu Wang; Zhenrong Zhang

doi:10.1002/adsr.202300157

Advanced Sensor Research (Jul 2024)

A Bio‐Inspired Artificial Tactile Sensing System Based on Optical Microfiber and Enhanced by Neural Network

Junjie Weng,
Siyang Xiao,
Yang Yu,
Jianfa Zhang,
Jian Chen,
Dongying Wang,
Zhencheng Wang,
Jianqiao Liang,
Hansi Ma,
Junbo Yang,
Tianwu Wang,
Zhenrong Zhang

Affiliations

Junjie Weng: College of Sciences National University of Defense Technology Changsha 410073 China
Siyang Xiao: College of Sciences National University of Defense Technology Changsha 410073 China
Yang Yu: College of Sciences National University of Defense Technology Changsha 410073 China
Jianfa Zhang: Hunan Provincial Key Laboratory of Novel Nano‐Optoelectronic Information Materials and Devices National University of Defense Technology Changsha 410073 China
Jian Chen: College of Sciences National University of Defense Technology Changsha 410073 China
Dongying Wang: College of Sciences National University of Defense Technology Changsha 410073 China
Zhencheng Wang: School of Computer Electronic and Information Guangxi University Nanning 530004 China
Jianqiao Liang: College of Sciences National University of Defense Technology Changsha 410073 China
Hansi Ma: College of Sciences National University of Defense Technology Changsha 410073 China
Junbo Yang: College of Sciences National University of Defense Technology Changsha 410073 China
Tianwu Wang: Great Bay Area Research Institute Aerospace Information Research Institute (AIR) of Chinese Academy of Science (CAS) Guangzhou 510700 China
Zhenrong Zhang: College of Sciences National University of Defense Technology Changsha 410073 China

DOI: https://doi.org/10.1002/adsr.202300157
Journal volume & issue: Vol. 3, no. 7
pp. n/a – n/a

Abstract

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Abstract Human tactile perception involves the activation of mechanoreceptors located within the skin in response to external stimuli, along with the organization and processing within the brain. However, human sensations may be subject to the issues related to some physiological factors (such as skin injury or neurasthenia), resulting in inability to quantify tactile information. To address this challenge, a novel bio‐inspired artificial tactile (BAT) sensing system enabled by the integration of optical microfiber (OM) with full‐connected neural network (FCNN) in this paper is demonstrated, inspired by human physiological characteristics and tactile mechanisms. In this system, the BAT sensor mimics human skin, where the OM serves as the mechanoreceptor for sensing tactile stimuli, while the FCNN functions as a simulated human brain to train and extract the signal characteristics for intelligent object recognition. The experimental results indicate that the proposed BAT sensor can sensitively respond to both the contact force (static tactile stimuli), as well as the vibrotactile events (dynamic tactile stimuli) for the recognition of regular textures. Furthermore, by integrating the trained FCNN, the BAT sensing system accurately identifies various intricate surface textures with an exceptional accuracy of 95.7%, highlighting its potential in next‐generation human‐machine interaction and advanced robotics.

Published in Advanced Sensor Research

ISSN: 2751-1219 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Technology (General); Science
Website: https://onlinelibrary.wiley.com/journal/27511219

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