backstepping synthesis for feedback control of first-order hyperbolic pdes with spatial-temporal actuation

backstepping synthesis for feedback control of first-order hyperbolic pdes with spatial-temporal actuation

;Xin Yu;Chao Xu;Huacheng Jiang;Arthi Ganesan;Guojie Zheng
science and technology of advanced materials 2014 Vol. 2014 pp. -
164
yu2014abstractbackstepping

Abstract

This paper deals with the stabilization problem of first-order hyperbolic partial differential equations (PDEs) with spatial-temporal actuation over the full physical domains. We assume that the interior actuator can be decomposed into a product of spatial and temporal components, where the spatial component satisfies a specific ordinary differential equation (ODE). A Volterra integral transformation is used to convert the original system into a simple target system using the backstepping-like procedure. Unlike the classical backstepping techniques for boundary control problems of PDEs, the internal actuation can not eliminate the residual term that causes the instability of the open-loop system. Thus, an additional differential transformation is introduced to transfer the input from the interior of the domain onto the boundary. Then, a feedback control law is designed using the classic backstepping technique which can stabilize the first-order hyperbolic PDE system in a finite time, which can be proved by using the semigroup arguments. The effectiveness of the design is illustrated with some numerical simulations.

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250257
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10.1155/2014/643640
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