The robot is further equipped to deal with challenges posed by rough, uneven terrain. It can traverse such landscapes at a pace twice as fast as an average person's walking speed<ref>http://robotics.mit.edu/mini-cheetah-first-four-legged-robot-do-backflip</ref>. The MIT Cheetah’s design, particularly the implementation of a control system that enables agile running, has been largely driven by the "learn-by-experience model". This approach, in contrast to previous designs reliant primarily on human analytical insights, allows the robot to respond quickly to changes in the environment<ref>https://news.mit.edu/2022/3-questions-how-mit-mini-cheetah-learns-run-fast-0317</ref>.
== See also ==
* [[Sangbae Kim]]
* [[Low-inertia actuator]]
== References ==