Optimization-based Posture Generation for Whole-body Contact Motion by Contact Point Search on the Body Surface
By: Masaki Murooka, Kei Okada, Masayuki Inaba
Potential Business Impact:
Robots use whole bodies to grip and move things.
Whole-body contact is an effective strategy for improving the stability and efficiency of the motion of robots. For robots to automatically perform such motions, we propose a posture generation method that employs all available surfaces of the robot links. By representing the contact point on the body surface by two-dimensional configuration variables, the joint positions and contact points are simultaneously determined through a gradient-based optimization. By generating motions with the proposed method, we present experiments in which robots manipulate objects effectively utilizing whole-body contact.
Similar Papers
Scaling Whole-body Multi-contact Manipulation with Contact Optimization
Robotics
Robots learn to move objects with their whole bodies.
Whole-body Multi-contact Motion Control for Humanoid Robots Based on Distributed Tactile Sensors
Robotics
Robots use knees and elbows to balance better.
A Smooth Analytical Formulation of Collision Detection and Rigid Body Dynamics With Contact
Robotics
Helps robots learn to touch and move better.