Optimal Linear Controller Design for Periodic Inputs [electronic resource] /by Goele Pipeleers, Bram Demeulenaere, Jan Swevers.
by Pipeleers, Goele [author.]; Demeulenaere, Bram [author.]; Swevers, Jan [author.]; SpringerLink (Online service).
Material type:
BookSeries: Lecture Notes in Control and Information Sciences: 394Publisher: London : Springer London, 2009.Description: XIII, 180 p. online resource.ISBN: 9781848829756.Subject(s): Engineering | Systems theory | Engineering | Control | Systems Theory, ControlDDC classification: 629.8 Online resources: Click here to access online | Item type | Current location | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|
| MAIN LIBRARY | TJ212-225 (Browse shelf) | Available |
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| R895-920 Noninvasive Cerebrovascular Diagnosis | T57-57.97 Regression | TA349-359 Programming Finite Elements in Java™ | TJ212-225 Optimal Linear Controller Design for Periodic Inputs | RC927-927.5 Nutritional Influences on Bone Health | QA184-205 Graphs and Matrices | Q334-342 Research and Development in Intelligent Systems XXVI |
Design Methodology for Controllers Facing Periodic Inputs -- Application to Feedforward Control -- Application to Estimated Disturbance Feedback Control -- Application to Repetitive Control -- Application to Feedback Control -- Experimental Validation on an Active Air Bearing Setup -- Conclusions.
Optimal Linear Controller Design for Periodic Inputs proposes a general design methodology for linear controllers facing periodic inputs which applies to all feedforward control, estimated disturbance feedback control, repetitive control and feedback control. The design methodology proposed is able to reproduce and outperform the major current design approaches, where this superior performance stems from the following properties: uncertainty on the input period is explicitly accounted for, periodic performance being traded-off against conflicting design objectives and controller design being translated into a convex optimization problem, guaranteeing the efficient computation of its global optimum. The potential of the design methodology is illustrated by both numerical and experimental results.
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