This paper proposes a dynamic controller structure and a systematic design procedure for stabilizing discrete-time hybrid systems. The proposed approach is based on the concept of control Lyapunov functions (CLFs), which, when available, can be used to design a stabilizing state-feedback control law. In general, the construction of a CLF for hybrid dynamical systems involving both continuous and discrete states is extremely complicated, especially in the presence of non-trivial discrete dynamics. Therefore, we introduce the novel concept of a hybrid control Lyapunov function, which allows the compositional design of a discrete and a continuous part of the CLF, and we formally prove that the existence of a hybrid CLF guarantees the existence...
International audienceWe construct hybrid loops that augment continuous-time control systems. We con...
This chapter presents a unified overview of recent results on controlling hybrid dynamical systems. ...
We formulate an optimal control problem for hybrid systems with inputs and propose conditions for th...
This paper proposes a dynamic controller structure and a systematic design procedure for stabilizing...
This paper proposes a dynamic controller structure and a systematic design procedure for stabilizing...
The design of stabilizing controllers for hybrid systems is particularly challenging due to the hete...
The design of stabilizing controllers for hybrid systems is particularly challenging due to the het...
In this paper we consider the stabilization of hybrid systems with both continuous and discrete dyna...
In this paper we consider the stabilization of hybrid systems with both continuous and discrete dyna...
Although control Lyapunov functions (CLFs) provide a mature framework for the synthesis of stabilizi...
Many physical systems today are modeled by interacting continuous and discrete event systems. Such h...
For a class of hybrid systems given in terms of constrained differential and difference equations/in...
We propose tools for the study of robust stabilizability and the design of robustly stabilizing feed...
International audienceWe construct hybrid loops that augment continuous-time control systems. We con...
This chapter presents a unified overview of recent results on controlling hybrid dynamical systems. ...
We formulate an optimal control problem for hybrid systems with inputs and propose conditions for th...
This paper proposes a dynamic controller structure and a systematic design procedure for stabilizing...
This paper proposes a dynamic controller structure and a systematic design procedure for stabilizing...
The design of stabilizing controllers for hybrid systems is particularly challenging due to the hete...
The design of stabilizing controllers for hybrid systems is particularly challenging due to the het...
In this paper we consider the stabilization of hybrid systems with both continuous and discrete dyna...
In this paper we consider the stabilization of hybrid systems with both continuous and discrete dyna...
Although control Lyapunov functions (CLFs) provide a mature framework for the synthesis of stabilizi...
Many physical systems today are modeled by interacting continuous and discrete event systems. Such h...
For a class of hybrid systems given in terms of constrained differential and difference equations/in...
We propose tools for the study of robust stabilizability and the design of robustly stabilizing feed...
International audienceWe construct hybrid loops that augment continuous-time control systems. We con...
This chapter presents a unified overview of recent results on controlling hybrid dynamical systems. ...
We formulate an optimal control problem for hybrid systems with inputs and propose conditions for th...