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Acrobatic humanoid robot

MIT has built a new humanoid robot that can make acrobatic movements.

Source: TechXplore

Creating robots that can perform acrobatic movements such as flips or spinning jumps can be highly challenging. Typically, in fact, these robots require sophisticated hardware designs, motion planners and control algorithms.

Researchers at Massachusetts Institute of Technology (MIT) and University of Massachusetts Amherst recently designed a new humanoid robot supported by an actuator-aware kino-dynamic motion planner and a landing controller. This design, presented in a paper pre-published on arXiv, could allow the humanoid robot to perform backflips and other acrobatic movements.

“In this work, we tried to come up with realistic control algorithm to make a real humanoid robot perform acrobatic behavior such as back/front/side-flip, spinning jump, and jump over an obstacle,” Donghyun Kim, one of the researchers who developed the robot’s software and controller, told TechXplore. “To do that, we first experimentally identified the actuator performance and then represent the primary limitations in our motion planner.”

Boston Dynamics already have many robots that make acrobatics and other impressive movements. The videos are from 2017 and 2019 respectively.

To perform highly dynamic behaviors, robots typically need to make efficient use of actuators. Most existing robot designs, however, do not fully address hardware-related challenges and aspects, such as the drop in voltage that can occur during high torque/velocity motions.

Kim and his colleague developed a new method that can handle the constraints associated with highly dynamic robot behaviors during motion planning and control. Combined with the humanoid robot design they proposed, this method could enable more dynamic movements, such as acrobatics.

“The most notable difference between the new humanoid robot we developed and other humanoid robots developed in the past would be the actuators,” Kim said. “Actuator technologies have been dramatically improved, and we have demonstrated the outstanding performance in the quadruped robots, MIT Cheetah 1, 2, 3 and mini-cheetah robots. The same actuator technology, represented by highly back-drivable, rapid and accurate torque control, and compact and robust form factor, will be used in the new humanoid robot.”

mini-cheetah-robot-1
MIT’s mini cheetah. Source: Flipboard.

In contrast with other humanoid robots developed in the past, the new robot designed by one of the researchers in the team, called Sangbae Kim, is extremely dynamic and efficient. This should allow it to complete more demanding and complex tasks.

the mit humanoid robot
The new MIT humanoid robot. From the same news source.

Kim and his colleagues have tested their robot design, motion planner, and landing controller in realistic simulations. Their findings are highly promising, as they show that the MIT humanoid robot should be able to perform a variety of acrobatic behaviors, including backflips, front flips and spinning jumps.

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