Preference Aligned Diffusion Planner for Quadrupedal Locomotion Control

Autor: Yuan, Xinyi, Shang, Zhiwei, Wang, Zifan, Wang, Chenkai, Shan, Zhao, Qi, Zhenchao, Zhu, Meixin, Bai, Chenjia, Li, Xuelong
Rok vydání: 2024
Předmět:
Druh dokumentu: Working Paper
Popis: Diffusion models demonstrate superior performance in capturing complex distributions from large-scale datasets, providing a promising solution for quadrupedal locomotion control. However, offline policy is sensitive to Out-of-Distribution (OOD) states due to the limited state coverage in the datasets. In this work, we propose a two-stage learning framework combining offline learning and online preference alignment for legged locomotion control. Through the offline stage, the diffusion planner learns the joint distribution of state-action sequences from expert datasets without using reward labels. Subsequently, we perform the online interaction in the simulation environment based on the trained offline planer, which significantly addresses the OOD issues and improves the robustness. Specifically, we propose a novel weak preference labeling method without the ground-truth reward or human preferences. The proposed method exhibits superior stability and velocity tracking accuracy in pacing, trotting, and bounding gait under both slow- and high-speed scenarios and can perform zero-shot transfer to the real Unitree Go1 robots. The project website for this paper is at https://shangjaven.github.io/preference-aligned-diffusion-legged/.
Databáze: arXiv