Recent Advances in Smart Tactile Sensory Systems with Brain‐Inspired Neural Networks

Junho Lee; Jee Young Kwak; Kyobin Keum; Kang Sik Kim; Insoo Kim; Myung‐Jae Lee; Yong‐Hoon Kim; Sung Kyu Park

doi:10.1002/aisy.202300631

Advanced Intelligent Systems (Apr 2024)

Recent Advances in Smart Tactile Sensory Systems with Brain‐Inspired Neural Networks

Junho Lee,
Jee Young Kwak,
Kyobin Keum,
Kang Sik Kim,
Insoo Kim,
Myung‐Jae Lee,
Yong‐Hoon Kim,
Sung Kyu Park

Affiliations

Junho Lee: Displays and Devices Research Lab Department of Intelligent Semiconductor Engineering Chung‐Ang University Seoul 06974 Republic of Korea
Jee Young Kwak: Displays and Devices Research Lab Department of Intelligent Semiconductor Engineering Chung‐Ang University Seoul 06974 Republic of Korea
Kyobin Keum: School of Advanced Materials Science and Engineering Sungkyunkwan University Suwon 16419 Republic of Korea
Kang Sik Kim: Displays and Devices Research Lab Department of Intelligent Semiconductor Engineering Chung‐Ang University Seoul 06974 Republic of Korea
Insoo Kim: Department of Medicine University of Connecticut School of Medicine Farmington CT 06030 USA
Myung‐Jae Lee: Convergence Research Institute Daegu Gyeongbuk Institute of Science and Technology (DGIST) Daegu 42988 Korea
Yong‐Hoon Kim: School of Advanced Materials Science and Engineering Sungkyunkwan University Suwon 16419 Republic of Korea
Sung Kyu Park: Displays and Devices Research Lab Department of Intelligent Semiconductor Engineering Chung‐Ang University Seoul 06974 Republic of Korea

DOI: https://doi.org/10.1002/aisy.202300631
Journal volume & issue: Vol. 6, no. 4
pp. n/a – n/a

Abstract

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Tactile sensory systems play a vital role in various emerging fields including robotics, prosthetics, and human–machine interfaces. However, traditional tactile sensors are typically designed to detect a single stimulus through a lock‐and‐key mechanism, which poses substantial challenges in the realization of multimodal tactile sensors. To address this issue, the convergence of tactile sensory systems with artificial neural network and machine learning (ML) platforms has been utilized to enhance the capabilities of multimodal sensors and enable signal decoupling/interpretation of mixed tactile stimuli. Herein, recent progress in multimodal sensors that can simultaneously identify various stimuli such as strain, pressure, and temperature is reviewed, providing in‐depth understanding of materials, structures, and methodologies. In addition, accurate interpretation of signals from mixed tactile stimuli under complex conditions remains challenging. This review presents a comprehensive exploration of ML algorithms that mimic human neural networks, discussing their significance in advancing smart sensory systems and improving signal interpretation in complex and dynamic environments.

Published in Advanced Intelligent Systems

ISSN: 2640-4567 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Electronics: Computer engineering. Computer hardware; Technology: Mechanical engineering and machinery: Control engineering systems. Automatic machinery (General)
Website: https://onlinelibrary.wiley.com/journal/26404567

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