Meng, X., Keppler, M., & Ott, C. (2022). Passivity-Based Motion and Force Tracking Control for Constrained Elastic Joint Robots. IEEE Control Systems Letters, 7, 217–222. https://doi.org/10.1109/LCSYS.2022.3187345
Institute of Electrical and Electronics Engineers (IEEE)
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Peer reviewed:
Yes
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Keywords:
Robot control; Robotics; Elastic robots
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Abstract:
In the past, several motion and force controls were successfully implemented on rigid-joint robots with constraints. With the invention of mechanically compliant robots, the focus on designing controllers for elastic joint robots with constraints is increasing, especially involving the complexity of the joint elasticity in control. Aiming to bridge the gap between the control schemes of rigid-and elastic-joint robots, this letter presents a controller consisting of a PD+ task-space tracking and integral force control, while the intrinsic inertial and elastic properties of the system are fully preserved. We provide a passivity analysis and prove uniform asymptotic stability of the equilibrium. Simulations on a planar two-Armed benchmark system with constraints validate the proposed control law.
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Project title:
Utilizing Natural Dynamics for Reliable Legged Locomotion: 819358 (European Commission)
