Welcome to the new version of CaltechAUTHORS. Login is currently restricted to library staff. If you notice any issues, please email coda@library.caltech.edu
CaltechAUTHORS
Published October 2021 | public
Journal Article Metadata-only

Online Learning of Unknown Dynamics for Model-Based Controllers in Legged Locomotion

Sun, Yu ORCID icon
Ubellacker, Wyatt L.
Ma, Wen-Loong ORCID icon
Zhang, Xiang ORCID icon
Wang, Changhao ORCID icon
Csomay-Shanklin, Noel V. ORCID icon
Tomizuka, Masayoshi ORCID icon
Sreenath, Koushil ORCID icon
Ames, Aaron D. ORCID icon

Abstract

The performance of a model-based controller can severely suffer when its model inaccurately represents the real world dynamics. We propose to learn a time-varying, locally linear residual model along the robot's current trajectory, to compensate for the prediction errors of the controller's model. Supervised learning is performed online, as the robot is running in the unknown environment, using data collected from its immediate past. We theoretically investigate our method in its general formulation, then apply it to a bipedal controller derived from the full-order dynamics of virtual constraints, and a quadrupedal controller derived from a simplified model of contact forces. For a biped in simulation, our method consistently outperforms the baseline and a recent learning-based method. We also experiment with a 12 kg quadruped in simulation and real world, where the baseline fails to walk with 10 kg of payload but our method succeeds.

Additional Information

© 2021 IEEE. Manuscript received February 24, 2021; accepted June 13, 2021. Date of publication August 30, 2021; date of current version September 13, 2021. This letter was recommended for publication by Editor Dana Kulic upon evaluation of the Associate Editor and reviewers' comments. This work was supported in part by DOW Chemical Project 227027AT, in part by NSF NRI Award 1924526, in part by NSF DCSDVTECH Award 1923239, and in part by NSF under Grant CMMI-1944722. We thank Fernando Castañeda for providing his code of the method in [33] to compare with our method. Yu Sun would like to thank his advisors, Alexei A. Efros and Moritz Hardt, for their unwavering support, and Armin Askari, Zihao Chen, Ashish Kumar, John Miller, and Haozhi Qi, for their help.

Additional details

Identifiers Funding Dates
Created:
August 20, 2023
Modified:
October 23, 2023