Advanced Science (Aug 2024)

Machine Learning Assisted Electronic/Ionic Skin Recognition of Thermal Stimuli and Mechanical Deformation for Soft Robots

  • Xuewei Shi,
  • Alamusi Lee,
  • Bo Yang,
  • Huiming Ning,
  • Haowen Liu,
  • Kexu An,
  • Hansheng Liao,
  • Kaiyan Huang,
  • Jie Wen,
  • Xiaolin Luo,
  • Lidan Zhang,
  • Bin Gu,
  • Ning Hu

DOI
https://doi.org/10.1002/advs.202401123
Journal volume & issue
Vol. 11, no. 30
pp. n/a – n/a

Abstract

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Abstract Soft robots have the advantage of adaptability and flexibility in various scenarios and tasks due to their inherent flexibility and mouldability, which makes them highly promising for real‐world applications. The development of electronic skin (E‐skin) perception systems is crucial for the advancement of soft robots. However, achieving both exteroceptive and proprioceptive capabilities in E‐skins, particularly in terms of decoupling and classifying sensing signals, remains a challenge. This study presents an E‐skin with mixed electronic and ionic conductivity that can simultaneously achieve exteroceptive and proprioceptive, based on the resistance response of conductive hydrogels. It is integrated with soft robots to enable state perception, with the sensed signals further decoded using the machine learning model of decision trees and random forest algorithms. The results demonstrate that the newly developed hydrogel sensing system can accurately predict attitude changes in soft robots when subjected to varying degrees of pressing, hot pressing, bending, twisting, and stretching. These findings that multifunctional hydrogels combine with machine learning to decode signals may serve as a basis for improving the sensing capabilities of intelligent soft robots in future advancements.

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