This paper discusses the state feedback stabilization problem of a deterministic finite automaton (DFA), and its application to stabilizing model predictive control (MPC) of hybrid systems. In the modeling of a DFA, a linear state equation representation recently proposed by the authors is used. First, this representation is briefly explained. Next, after the notion of equilibrium points and stabilizability of the DFA are defined, a necessary and sufficient condition for the DFA to be stabilizable is derived. Then a characterization of all stabilizing state feedback controllers is presented. Third, a simple example is given to show how to follow the proposed procedure. Finally, control Lyapunov functions for hybrid systems are introduced ba...
The design of stabilizing controllers for hybrid systems is particularly challenging due to the het...
Abstract: This paper presents a stability analysis approach for a class of hybrid automata. It is as...
In this paper we consider the stabilization of hybrid systems with both continuous and discrete dyna...
As is well known, the computational complexity in the mixed integer programming (MIP) problem is one...
The problem of stabilizing linear discrete-time hybrid automata is considered. A synthesis methodolo...
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...
In this note, we investigate the stability of hybrid systems in closed-loop with model predictive co...
We study so-called "hybrid feedback stabilizers " for an arbitrarily general system of lin...
We present a model predictive control (MPC) algorithm for the appropriate discretizations of (nondis...
The design of stabilizing controllers for hybrid systems is particularly challenging due to the hete...
We propose tools for the study of robust stabilizability and the design of robustly stabilizing feed...
summary:In this paper, the static output feedback stabilization (SOFS) of deterministic finite autom...
The design of stabilizing controllers for hybrid systems is particularly challenging due to the het...
Abstract: This paper presents a stability analysis approach for a class of hybrid automata. It is as...
In this paper we consider the stabilization of hybrid systems with both continuous and discrete dyna...
As is well known, the computational complexity in the mixed integer programming (MIP) problem is one...
The problem of stabilizing linear discrete-time hybrid automata is considered. A synthesis methodolo...
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...
In this note, we investigate the stability of hybrid systems in closed-loop with model predictive co...
We study so-called "hybrid feedback stabilizers " for an arbitrarily general system of lin...
We present a model predictive control (MPC) algorithm for the appropriate discretizations of (nondis...
The design of stabilizing controllers for hybrid systems is particularly challenging due to the hete...
We propose tools for the study of robust stabilizability and the design of robustly stabilizing feed...
summary:In this paper, the static output feedback stabilization (SOFS) of deterministic finite autom...
The design of stabilizing controllers for hybrid systems is particularly challenging due to the het...
Abstract: This paper presents a stability analysis approach for a class of hybrid automata. It is as...
In this paper we consider the stabilization of hybrid systems with both continuous and discrete dyna...