Control Systems Theory and Applications for Linear Repetitive Processes [electronic resource] / by Eric Rogers, Krzysztof Galkowski, David H. Owens.

By: Rogers, Eric [author.]Contributor(s): Galkowski, Krzysztof [author.] | Owens, David H [author.] | SpringerLink (Online service)Material type: TextTextLanguage: English Series: Lecture Notes in Control and Information Sciences: 349Publisher: Berlin, Heidelberg : Springer Berlin Heidelberg, 2007Description: XII, 456 p. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783540715375Subject(s): Engineering | Systems theory | Engineering | Control Engineering | Systems and Information Theory in Engineering | Systems Theory, ControlAdditional physical formats: Printed edition:: No titleOnline resources: Click here to access online
Contents:
Examples and Representations -- Stability - Theory, Tests and Performance Bounds -- Lyapunov Equations for Discrete Processes -- Lyapunov Equations for Differential Processes -- Robustness -- Controllability, Observability, Poles and Zeros -- Feedback and Optimal Control -- Control Law Design for Robustness and Performance -- Application to Iterative Learning Control -- Conclusions and Further Work.
In: Springer eBooksSummary: After motivating examples, this monograph gives substantial new results on the analysis and control of linear repetitive processes. These include further applications of the abstract model based stability theory which, in particular, shows the critical importance to the dynamics developed of the structure of the initial conditions at the start of each new pass, the development of stability tests and performance bounds in terms of so-called 1D and 2D Lyapunov equations. It presents the development of a major bank of results on the structure and design of control laws, including the case when there is uncertainty in the process model description, together with numerically reliable computational algorithms. Finally, the application of some of these results in the area of iterative learning control is treated --- including experimental results from a chain conveyor system and a gantry robot system.
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Examples and Representations -- Stability - Theory, Tests and Performance Bounds -- Lyapunov Equations for Discrete Processes -- Lyapunov Equations for Differential Processes -- Robustness -- Controllability, Observability, Poles and Zeros -- Feedback and Optimal Control -- Control Law Design for Robustness and Performance -- Application to Iterative Learning Control -- Conclusions and Further Work.

After motivating examples, this monograph gives substantial new results on the analysis and control of linear repetitive processes. These include further applications of the abstract model based stability theory which, in particular, shows the critical importance to the dynamics developed of the structure of the initial conditions at the start of each new pass, the development of stability tests and performance bounds in terms of so-called 1D and 2D Lyapunov equations. It presents the development of a major bank of results on the structure and design of control laws, including the case when there is uncertainty in the process model description, together with numerically reliable computational algorithms. Finally, the application of some of these results in the area of iterative learning control is treated --- including experimental results from a chain conveyor system and a gantry robot system.

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