Fixed structure controllers are widely used, however the tuning thereof can be cumbersome and gives no guarantee of optimality, especially when the system is Linear Parameter-Varying (LPV). Iterative Feedback Tuning (IFT) is a technique for the optimisation of a parameterised controller based on closed-loop experiments. This paper extends the applicability of IFT to LPV systems for the case where the LPV scheduling parameters are measurable but cannot be controlled. The closed-loop LPV system matrices are factorised such that the effect of the scheduling parameter on the IFT gradient estimates can be compensated. A suffcient number of IFT experiments are performed to estimate the cost gradient and tune the parameters. The method is validate...
The problem of designing parameter-dependent output feedback controllers by using inaccurate knowled...
Gain-scheduling approach is a powerful tool but it only guarantees the local stability and performan...
Iterative feedback tuning (IFT) is a direct tuning method using closed loop experimental data. The m...
Fixed structure controllers are widely used, however the tuning thereof can be cumbersome and gives ...
In this thesis the usage of the LPV-ARX representation of a LPV system for extending the applicabili...
Optimal performance of process control requires a controller synthesis based on a perfor-mance crite...
Despite the vast amount of delivered theoretical results, regarding the topic of controller design, ...
In many control applications, it is attractive to describe nonlinear (NL) and time-varying (TV) plan...
A new method for the design of fixed-structure dynamic output-feedback Linear Parameter Varying (LPV...
Iterative feedback tuning (IFT) is a data-based method for the optimal tuning of a low order control...
Iterative Feedback Tuning (IFT) is a data-based method for the iterative tuning of restricted comple...
This paper extends existing results on a technique for gain-scheduled, L 2 -gain control of linear p...
LPV models are extremely appealing, as they allow describing the dynamics of many physical systems t...
International audienceIn this paper, we propose an optimal online tuning scheme for design-related s...
The Iterative Feedback Tuning (IFT) is a data-based method for the tuning of restricted-complexity c...
The problem of designing parameter-dependent output feedback controllers by using inaccurate knowled...
Gain-scheduling approach is a powerful tool but it only guarantees the local stability and performan...
Iterative feedback tuning (IFT) is a direct tuning method using closed loop experimental data. The m...
Fixed structure controllers are widely used, however the tuning thereof can be cumbersome and gives ...
In this thesis the usage of the LPV-ARX representation of a LPV system for extending the applicabili...
Optimal performance of process control requires a controller synthesis based on a perfor-mance crite...
Despite the vast amount of delivered theoretical results, regarding the topic of controller design, ...
In many control applications, it is attractive to describe nonlinear (NL) and time-varying (TV) plan...
A new method for the design of fixed-structure dynamic output-feedback Linear Parameter Varying (LPV...
Iterative feedback tuning (IFT) is a data-based method for the optimal tuning of a low order control...
Iterative Feedback Tuning (IFT) is a data-based method for the iterative tuning of restricted comple...
This paper extends existing results on a technique for gain-scheduled, L 2 -gain control of linear p...
LPV models are extremely appealing, as they allow describing the dynamics of many physical systems t...
International audienceIn this paper, we propose an optimal online tuning scheme for design-related s...
The Iterative Feedback Tuning (IFT) is a data-based method for the tuning of restricted-complexity c...
The problem of designing parameter-dependent output feedback controllers by using inaccurate knowled...
Gain-scheduling approach is a powerful tool but it only guarantees the local stability and performan...
Iterative feedback tuning (IFT) is a direct tuning method using closed loop experimental data. The m...