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Shaping Impedances to Comply With Constrained Task Dynamics

Johannes Lachner, Felix Allmendinger, Stefano Stramigioli, Neville Hogan

2022IEEE Transactions on Robotics31 citationsDOIOpen Access PDF

Abstract

Humans are capable of managing multiple tasks simultaneously. It is widely assumed that human motor control can be emulated by impedance control. To achieve human-like behavior, however, the impedance parameters of multiple tasks may vary during task execution. We propose an algorithm that shapes task impedance as a function of the robot’s time-varying inertial properties. These properties involve virtually constrained masses and virtually constrained inertias that counteract a task in order to comply with a given constraint. In this work, we not only detect task conflicts, but also show how to handle them. Our method is able to control kinematically redundant robots. We developed a damping-design method that does not interfere with our desired Cartesian task-space behavior. The control approach was verified in experiments on a real robot. We compared our impedance shaping method with two alternative control approaches: simple impedance superposition and nullspace projection. Our method preserved the passivity while improving the Cartesian task performance of an impedance controller. The method has computational advantages, beneficial to control robots with many degrees of freedom.

Topics & Concepts

Dynamics (music)Task (project management)Electrical impedanceComputer scienceControl engineeringControl theory (sociology)Artificial intelligenceEngineeringSystems engineeringElectrical engineeringControl (management)PhysicsAcousticsRobot Manipulation and LearningReinforcement Learning in RoboticsManufacturing Process and Optimization
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