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Robust Vibration Control of Smart Structures via Discrete-Time Fuzzy-Sliding Modes
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 Title & Authors
Robust Vibration Control of Smart Structures via Discrete-Time Fuzzy-Sliding Modes
Choi, Seung-Bok; Kim, Myoung-Suk;
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 Abstract
This paper presents a new discrete-time fuzzy-sliding mode controller for robust vibration control of a smart structure featuring a piezofilm actuator. A governong equation of motion for the smart beam structure is derived and discrete-time codel with mismatched uncertainties such as parameter variations is constructed ina state space. A discrete-time sliding mode control system consisting of an equivalent controller and a discontinuous controller is formulated. In the design of the equivalent part, so called an equivalent controller separation method is adopted to achieve vzster convergence to a sliding surface without extension of a sliding region, in which the system robustness maynot be guaranteed. On the other hand, the discontinuous part is constructed on the basis of both the sliding and the convergence conditions using a time-varying feedback gain. The sliding moide controller is then incorporated with a fuzzy technique to appropriately determine principal control parameters such as a discountinuous feedback gain. Experimental implementation on the forced and random vibraiton controls is undertaken in order to demonstrate superior control performance of the proposed controller.
 Keywords
Smart Structure;Robust Vibration Control;Piezofilm Actuator;Discrete-Time Fuzzy-Sliding Model Control;
 Language
Korean
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