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Control of Hysteresis: Theory and Experimental Results

dc.contributor.authorTan, Xiaoboen_US
dc.contributor.authorVenkataraman, Ramen_US
dc.contributor.authorKrishnaprasad, Perinkulam S.en_US
dc.date.accessioned2007-05-23T10:10:41Z
dc.date.available2007-05-23T10:10:41Z
dc.date.issued2001en_US
dc.identifier.urihttp://hdl.handle.net/1903/6199
dc.description.abstractHysteresis in smart materials hinders the wider applicability ofsuch materials in actuators. In this paper, a systematic approachfor coping with hysteresis is presented. The method is illustratedthrough the example of controlling a commercially available magnetostrictive actuator.<p>We utilize the low-dimensional model for the magnetostrictive actuator that was developed in earlier work. For low frequency inputs, the model approximates to a rate-independent hysteresis operator, with current as its input and magnetization as its output. Magnetostrictive strain is proportional to the square of the magnetization. In this paper, we use a classical Preisach operator for the rate-independent hysteresis operator. <p> We present the results of experiments conducted on a commercial magnetostrictive actuator, the purpose of which was the control of the displacement/strain output. A constrained least-squares algorithm is employedto identify a discrete approximation to the Preisach measure. We then discussa nonlinear inversion algorithm for the resulting Preisach operator, basedon the theory of strictly-increasing operators. This algorithm yields a control input signal to produce a desired magnetostrictive response.<p>The effectiveness of the inversion scheme is demonstrated via an open-looptrajectory tracking experiment.en_US
dc.format.extent500982 bytes
dc.format.mimetypeapplication/pdf
dc.language.isoen_USen_US
dc.relation.ispartofseriesISR; TR 2001-30en_US
dc.subjectSensor-Actuator Networksen_US
dc.titleControl of Hysteresis: Theory and Experimental Resultsen_US
dc.typeTechnical Reporten_US
dc.contributor.departmentISRen_US


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