Coupling Mobile Base and End-Effector Motion in Task Space | IEEE Conference Publication | IEEE Xplore

Coupling Mobile Base and End-Effector Motion in Task Space


Abstract:

Dynamic systems are a practical alternative to motion planning in executing robot actions. They are of particular interest in Learning from Demonstration, as here we aim ...Show More

Abstract:

Dynamic systems are a practical alternative to motion planning in executing robot actions. They are of particular interest in Learning from Demonstration, as here we aim to carry out actions in a certain fashion, without a model or in-depth knowledge about the world, which might be difficult to achieve with a planner. Using model-based dynamic systems in task space enables robots to flexibly reproduce demonstrated actions. Nevertheless, when dealing with mobile manipulators, we face the challenge of including the kinematic constraints of the robot in the action models. In this paper we propose to couple robot base and end-effector motions generated by arbitrary dynamical systems modulating the base velocity, while respecting the robots kinematic design. To this end we learn an approximation of the inverse reachability in closed form. In real-world robot experiments we demonstrate that we are able to maintain kinematically feasible trajectories in the presence of obstacles and in configurations differing profoundly from the training scene.
Date of Conference: 01-05 October 2018
Date Added to IEEE Xplore: 06 January 2019
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Conference Location: Madrid, Spain

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