A learning-based model predictive control scheme and its application in biped locomotion

Jingchao Li, Zhaohui Yuan, Sheng Dong, Xiaoyue Sang, Jian Kang

Research output: Contribution to journalArticlepeer-review

8 Scopus citations

Abstract

This paper proposes a learning-based model predictive control scheme. This scheme divides the predictive model into a known nominal model and an unknown model residual. Model residual is learned using Gaussian process regression. The learned stochastic model is solved quickly using differential dynamic programming, taking into account control input constraints. The simulation results show that compared with state of art optimal control methods, this scheme has good robustness to model residual, accelerates the solution of high-dimensional problems, and can strictly constrain the control inputs according to the actual situation. Based on this learning-based model predictive control scheme, this paper also proposes an online learning gait generator for the uncertainty problem in the locomotion control of biped robots. The zero moment point is strictly constrained during training to ensure safety. The simulation results show that the gait generator is robust to unknown load and unknown external force.

Original languageEnglish
Article number105246
JournalEngineering Applications of Artificial Intelligence
Volume115
DOIs
StatePublished - Oct 2022

Keywords

  • Biped locomotion
  • Differential dynamic programming
  • Gaussian process regression
  • Learning-based model predictive control

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