R. Van Ham, B. Vanderborght, M. Van Damme, B. Verrelst and D. Lefeber (2006). "MACCEPA: the mechanically adjustable compliance and controllable equilibrium position actuator for 'controlled passive walking': Difference between revisions

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==Benefits ==
==Benefits ==
This approach is was created in order to achieve three main goals, namely better energy efficiency, better control over the force of robot "actions", and better balancing.

Revision as of 07:52, 25 February 2021

Summary

Main idea

Robots can be stiff and rigid, but that is not the only option that one has when creating a robot. In order to make robots move more human-like, a mechanism is introduced where actuators with "adaptive compliance" are created tested:

  • “Nowadays, more and more research groups working on bipeds have started to believe that natural biped walking is a combination of both approaches, requiring actuators with adaptable compliance (inverse of stiffness), resulting in energy efficient walking at different speeds.”
  • “Human joints are actuated by at least two muscle groups, giving them the possibility to change the stiffness of a joint and to control the equilibrium position. By controlling both the compliance and the equilibrium positions, a variety of natural motions is possible, requiring a minimal energy input to the system.”

Benefits

This approach is was created in order to achieve three main goals, namely better energy efficiency, better control over the force of robot "actions", and better balancing.