Fast dextrous re-grasping with optimal contact forces and contact sensor-based impedance control

This paper presents an approach to fast object manipulation by dextrous re-grasping of multi-fingered hands. The approach is based on a real-time grasping force optimization (GFO) algorithm and a fingertip impedance control scheme. Both the controller and the GFO make use of 6D contact force sensor data at run-time. The latter keeps the contact forces as small as possible while considering friction limits at the contact points during (re)grasping. The impedance controller is used to impose the optimized contact forces onto the grasped object while simultaneously enabling active control of the fingertip positions. Experiments demonstrate the robustness of the approach and the increase in task speed during multi-fingered manipulation.