Motivated by applications such as drainage canal control, where the disturbance acting on a system can be predicted on the basis of weather forecast, we propose a model predictive control technique consisting in the online tuning of a Youla-Kučera parameter. Essentially, the optimal control sequence is supplied to the system by properly setting the coefficients of the Youla-Kučera parameter taken as a finite impulse response, whose length depends on that of the optimal trajectory. Stability is guaranteed for any arbitrary choice of the time-varying coefficients that are adapted to the current forecast of disturbance. The approach is illustrated by numerical simulations of a drainage canal control system.
Disturbance--driven Model Predictive Control by means of Youla--Kucera parameter switching with an application to drainage canal control
BLANCHINI, Franco;MIANI, Stefano
2012-01-01
Abstract
Motivated by applications such as drainage canal control, where the disturbance acting on a system can be predicted on the basis of weather forecast, we propose a model predictive control technique consisting in the online tuning of a Youla-Kučera parameter. Essentially, the optimal control sequence is supplied to the system by properly setting the coefficients of the Youla-Kučera parameter taken as a finite impulse response, whose length depends on that of the optimal trajectory. Stability is guaranteed for any arbitrary choice of the time-varying coefficients that are adapted to the current forecast of disturbance. The approach is illustrated by numerical simulations of a drainage canal control system.| File | Dimensione | Formato | |
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