PLoS ONE (Jan 2021)

Review of machine learning methods in soft robotics.

  • Daekyum Kim,
  • Sang-Hun Kim,
  • Taekyoung Kim,
  • Brian Byunghyun Kang,
  • Minhyuk Lee,
  • Wookeun Park,
  • Subyeong Ku,
  • DongWook Kim,
  • Junghan Kwon,
  • Hochang Lee,
  • Joonbum Bae,
  • Yong-Lae Park,
  • Kyu-Jin Cho,
  • Sungho Jo

DOI
https://doi.org/10.1371/journal.pone.0246102
Journal volume & issue
Vol. 16, no. 2
p. e0246102

Abstract

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Soft robots have been extensively researched due to their flexible, deformable, and adaptive characteristics. However, compared to rigid robots, soft robots have issues in modeling, calibration, and control in that the innate characteristics of the soft materials can cause complex behaviors due to non-linearity and hysteresis. To overcome these limitations, recent studies have applied various approaches based on machine learning. This paper presents existing machine learning techniques in the soft robotic fields and categorizes the implementation of machine learning approaches in different soft robotic applications, which include soft sensors, soft actuators, and applications such as soft wearable robots. An analysis of the trends of different machine learning approaches with respect to different types of soft robot applications is presented; in addition to the current limitations in the research field, followed by a summary of the existing machine learning methods for soft robots.