Generating self-excited oscillations for underactuated mechanical systems via two-relay controller |
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Authors: | Luis T Aguilar Igor Boiko Leonid Fridman Rafael Iriarte |
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Affiliation: | 1. Instituto Politécnico Nacional, Centro de Investigación y Desarrollo de Tecnología Digital , PMB 88, PO Box 439016, San Ysidro, CA, USA luis.aguilar@ieee.org;3. University of Calgary , 2500 University Dr. NW, Calgary, Alberta, Canada;4. Engineering Faculty, Department of Control , Universidad Nacional Autónoma de México (UNAM) , CP 04510, Mexico City, Mexico |
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Abstract: | A tool for the design of a periodic motion in an underactuated mechanical system via generating a self-excited oscillation of a desired amplitude and frequency by means of the variable structure control is proposed. First, an approximate approach based on the describing function method is given, which requires that the mechanical plant should be a linear low-pass filter–the hypothesis that usually holds when the oscillations are relatively fast. The method based on the locus of a perturbed relay systems provides an exact model of the oscillations when the plant is linear. Finally, the Poincaré map's design provides the value of the controller parameters ensuring the locally orbitally stable periodic motions for an arbitrary mechanical plant. The proposed approach is shown by the controller design and experiments on the Furuta pendulum. |
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Keywords: | variable structure systems underactuated systems periodic solution frequency domain methods |
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