Recent advancements in adaptive control for reference trajectory tracking enable quadrupedal robots to perform locomotion tasks under challenging conditions. There are methods enabling the estimation of the external disturbances in terms of forces and torques. However, a specific case of disturbances that are periodic was not explicitly tackled in application to quadrupeds. This work is devoted to the estimation of the periodic disturbances with a lightweight regressor using simplified robot dynamics and extracting the disturbance properties in terms of the magnitude and frequency. Experimental evidence suggests performance improvement over the baseline static disturbance compensation. All source files, including simulation setups, code, and calculation scripts, are available on GitHub atthis https URL.
View on arXiv@article{pestova2025_2505.12361,
title={ Adaptive MPC-based quadrupedal robot control under periodic disturbances },
author={ Elizaveta Pestova and Ilya Osokin and Danil Belov and Pavel Osinenko },
journal={arXiv preprint arXiv:2505.12361},
year={ 2025 }
}