We present a numerical algorithm based on invariant set theory to evaluate the worst-case performance of PD-controlled mechanical systems affected by bounded disturbances. By performing a specific coordinate transformation, the search and computation of positive invariant sets is simplified. It is shown that, thanks to the preservation of problem structure, the proposed method allows to obtain tight, component-wise bounds on the states, which are especially useful for performance evaluation and tuning of a PD controller. The bounds are formally guaranteed and can be used for safety certification. The method is compared to ultimate boundedness, and the superior results are shown via numerical simulations
This paper deals with the computation of control invariant sets for constrained nonlinear systems. T...
We study discrete time linear constrained switching systems with additive disturbances, in the gener...
International audienceThis paper deals with a fault detection method taking model uncertainties desc...
We present a numerical algorithm based on invariant set theory to evaluate the worst-case performanc...
International audienceThe objective of this chapter is to present a methodology for computing robust...
International audienceThis paper assesses the transient stability of a synchronous machine connected...
This paper addresses the problem of mechanical systems in which parameters are uncertain and bounded...
We present a novel method to compute componentwise ultimate bounds and invariant regions for a class...
International audienceThis contribution deals with the computational issues encountered in the const...
International audienceIn recent years, many applications, as well as theoretical properties of inter...
International audienceThis paper deals with guaranteed state estimation in a bounded-error context f...
Several robustness problems such as stability and performance robustness analysis of feedback system...
International audienceThis paper proposes an invariant-set based minimal detectable fault (MDF) comp...
Abstract: This paper addresses invariant set computation for discrete-time switched systems subject ...
This paper deals with the computation of control invariant sets for constrained nonlinear systems. T...
We study discrete time linear constrained switching systems with additive disturbances, in the gener...
International audienceThis paper deals with a fault detection method taking model uncertainties desc...
We present a numerical algorithm based on invariant set theory to evaluate the worst-case performanc...
International audienceThe objective of this chapter is to present a methodology for computing robust...
International audienceThis paper assesses the transient stability of a synchronous machine connected...
This paper addresses the problem of mechanical systems in which parameters are uncertain and bounded...
We present a novel method to compute componentwise ultimate bounds and invariant regions for a class...
International audienceThis contribution deals with the computational issues encountered in the const...
International audienceIn recent years, many applications, as well as theoretical properties of inter...
International audienceThis paper deals with guaranteed state estimation in a bounded-error context f...
Several robustness problems such as stability and performance robustness analysis of feedback system...
International audienceThis paper proposes an invariant-set based minimal detectable fault (MDF) comp...
Abstract: This paper addresses invariant set computation for discrete-time switched systems subject ...
This paper deals with the computation of control invariant sets for constrained nonlinear systems. T...
We study discrete time linear constrained switching systems with additive disturbances, in the gener...
International audienceThis paper deals with a fault detection method taking model uncertainties desc...