Affiliation:
1. Department of Mechanical Engineering University of Canterbury Christchurch, New Zealand
Abstract
The vibration modes of a generic two-link fiexible manipulator are studied as a function of the link, rotor, and tip (statorlpayload) mass distribution. Necessary and sufficient conditions are devel oped for all vibration modes to exhibit a node at the manipulator endpoint. A rigorous treatment of the relevant kinematics and dy namics shows that this property can be closely achieved for large tip/link mass ratio and sufficiently small rotor inertia. The major impacts of this result on feedforward/feedback controller design are uncovered. First, the nonlinear joint torque to end-effector motion dynamics become essentially equivalent to those of the rigid case. Second, an output involving the endpoint rates and elastic motions is shown to possess the passivity property for suitably defined inputs. This permits the design of simple controllers that furnish endpoint stabilization with simultaneous vibration suppression. A numeri cal example is used to illustrate the results and demonstrate the achievable performance using the controller design concepts.
Subject
Applied Mathematics,Artificial Intelligence,Electrical and Electronic Engineering,Mechanical Engineering,Modelling and Simulation,Software
Cited by
27 articles.
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