Design of reduced-order controllers via H∞ and parametric optimisation: Comparison for an active suspension system
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The design of reduced-order controllers under specific performance and structure requirements is dealt in this contribution. Two controllers are designed and compared. The first one was designed using H∞ theory whereas the latter one is designed departing from a parametric- optimisation via a two-stage algorithm. The time spent by the designer using our second approach is largely reduced. An active suspension system is selected as a case study. The performance of both controllers is tested experimentally in the active suspension set-up. The experimental results show that the parametric-optimisation controller practically meets the desired performance specifications. Meanwhile, the H∞ controller cannot accomplish the imposed constraints just in the low-frequency range. © 2003 EUCA.
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Active suspension; Evolution algorithm; H∞ control; Parametric optimisation Algorithms; Constraint theory; Optimization; Parameter estimation; Specifications; Active suspension; Evolution algorithms; Parametric optimization; Control system analysis
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