Mini Cheetah: A Platform for Pushing the Limits of Dynamic Quadruped Control¶
Authors: Benjamin Katz, Jared Di Carlo, Sangbae Kim
Published: 2019 (Conference Paper)
Source: 2019 International Conference on Robotics and Automation (ICRA)
DOI: 10.1109/ICRA.2019.8793865
Summary¶
Abstract¶
Mini Cheetah is a small and inexpensive, yet powerful and mechanically robust quadruped robot, intended to enable rapid development of control systems for legged robots. The robot uses custom backdriveable modular actuators, which enable high-bandwidth force control, high force density, and robustness to impacts. Standing around 0.3 m tall and weighing 9 kg, Mini Cheetah can easily be handled by a single operator. We have demonstrated dynamic trot, trot-run, bounding, and pronking gaits on the robot to speeds of up to 2.45 meters per second using Convex Model-Predictive Control (cMPC). In addition to locomotion, we have used the robot to execute 360° backflips, with trajectories generated using offline nonlinear optimization.