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Disturbance attenuation by dynamic output feedback for input-delay systems

✍ Scribed by Michael Di Loreto; Jean Jacques Loiseau; Jean-François Lafay

Publisher
Elsevier Science
Year
2008
Tongue
English
Weight
275 KB
Volume
44
Category
Article
ISSN
0005-1098

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✦ Synopsis

This paper addresses the optimal disturbance attenuation problem by output feedback for multivariable linear systems with delayed inputs. The attenuation is optimal in the sense that the controller minimizes the maximal amplitude of the plant output in response to such a disturbance. The controller is a general feedback, involving an observer, a state predictor, and a predicted state feedback. The optimal disturbance attenuation problem is formulated in terms of an equivalent system without delay. The optimal bound of the disturbance attenuation is then characterized, and it is shown that the optimal controller tends to have high gains. A necessary and sufficient condition to guarantee the existence of an optimal solution is provided using the geometric approach.

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