OTHER
Compliance and Dynamic Analysis of Tendon-Driven Robotic Mechanisms
Sun Lai Chang
- Year
- 1993
- Citations
- 2
Abstract
Abstract The stiffness and compliance matrices of tendon-driven robotic mechanisms have been derived in this paper. Position compensation for external force/moment based on the system compliance has also been developed. Using a stretchable tendon model, dynamic equations are systematically generated. Natural frequencies and mode shapes of this class of mechanisms have been analyzed through local linearization of its dynamic equations.
Keywords
Compliance (psychology)TendonStiffnessControl theory (sociology)LinearizationPosition (finance)Moment (physics)Computer scienceRobotCompensation (psychology)
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