Abstract
This paper proposes a new framework for planning assembly tasks involving elastic parts. As an example of these kind of assembly tasks, we deal with the insertion of ring-shaped objects into a cylinder by a dual-arm robot. The proposed framework is a combination of human movements to determine the overall assembly strategy and an optimization-based motion planner. The motion of the human's hands, more specifically, the motion of the fingers gripping the object is captured by a Leap Motion Controller. Then, key points in the recorded trajectory of the position and orientation of the human's fingers are extracted. These points are used as partial goals in the optimization-based motion planner that generates the robot arms' trajectories minimizing the object's deformation. Through experimental results it was verified the validity of the proposed framework.
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