HRI
CPA-Wrist: Compliant Pneumatic Actuation for Antagonistic Tendon Driven Wrists
Alexander Toedtheide, Sami Haddadin
- Year
- 2018
- Citations
- 4
Abstract
In this letter, we propose a new compliant robotics wrist design concept. The system is tendon driven, pneumatically actuated and impedance controlled. We show simulative and experimental results for orientation-based impedance control, human robot interaction with deflection, and collision as well as zero gravity control. Large range point-to-point movements can be performed within 0.5 s and the system stabilizes itself within 0.4 s after external large deflective contacts. Maximum achieved task stiffness are 15 N·m/rad and 0.5 N·m/rad in simulation and experiment, respectively.
Keywords
Deflection (physics)StiffnessMechanical impedanceTendonWristImpedance controlRobotElectrical impedanceSimulationRobotics
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