Title of article :
Control of an unstable reaction–diffusion PDE with long input delay
Author/Authors :
Krstic، نويسنده , , Miroslav، نويسنده ,
Issue Information :
ماهنامه با شماره پیاپی سال 2009
Pages :
10
From page :
773
To page :
782
Abstract :
A Smith Predictor-like design for compensation of arbitrarily long input delays is available for general, controllable, possibly unstable LTI finite-dimensional systems. Such a design has not been proposed previously for problems where the plant is a PDE. We present a design and stability analysis for a prototype problem, where the plant is a reaction–diffusion (parabolic) PDE, with boundary control. The plant has an arbitrary number of unstable eigenvalues and arbitrarily long delay, with an unbounded input operator. The predictor-based feedback design extends fairly routinely, within the framework of infinite-dimensional backstepping. However, the stability analysis contains interesting features that do not arise in predictor problems when the plant is an ODE. The unbounded character of the input operator requires that the stability be characterized in terms of the H 1 (rather than the usual L 2 ) norm of the actuator state. The analysis involves an interesting structure of interconnected PDEs, of parabolic and first-order hyperbolic types, where the feedback gain kernel for the undelayed problem becomes an initial condition in a PDE arising in the compensator design for the problem with input delay. Space and time variables swap their roles in an interesting manner throughout the analysis.
Keywords :
Delays , Distributed parameter systems , Backstepping , Predictor feedback
Journal title :
Systems and Control Letters
Serial Year :
2009
Journal title :
Systems and Control Letters
Record number :
1677144
Link To Document :
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