Abstract
This paper is concerned with the performance output regulation problem for a wave equation with input delay and unmatched disturbance. Firstly, in the case of time delay, the input delay term is translated into a first-order hyperbolic equation and we obtain a cascade system. By applying the method of auxiliary trajectory, the unmatched disturbance is compensated and eliminated. Then, we design a state feedback controller. Meanwhile, with the measured error signal, we construct an observer for the cascade system. Based on the observer, an error feedback controller is developed by replacing the states with their estimations. By using Lyapunov functional method, we also prove the regulation error goes to zero exponentially. Thus, the problem of output tracking is solved for the wave equation in despite of input delay and unmatched disturbance. Finally, the numerical simulations are presented to validate the theoretical results.
Highlights
In this paper, we consider a problem of output tracking for a wave equation with input delay and unmatched disturbance
In the last several decades, the performance output regulation problem for systems described by partial differential equations (PDEs) has been studied extensively
Example can be found in [4] where the performance output tracking is considered for a wave equation with unmatched harmonic disturbance
Summary
We consider a problem of output tracking for a wave equation with input delay and unmatched disturbance. We are mainly concerned with, in this paper, the non-collocated performance output regulation problem for a wave equation with input delay and unmatched disturbance as follows: utt The contributions of this paper lie in the following: (a) The problem of output tracking for a wave equation with input delay is solved; (b)The problem of non-collocated output tracking and disturbance rejection is solved by auxiliary trajectory method; (c) We design an cascade system observer just using regulation error; The rest of the paper is outlined as follows.
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