The main objective of this paper is to characterize feedback control laws that are optimal with respect to a quadratic cost functional in the framework of linear hybrid systems undergoing time-driven periodic jumps, namely the so-called hybrid Linear–Quadratic Regulator (LQR) problem. The optimal solution to the hybrid LQR problem is determined both in the case of finite-horizon and infinite-horizon optimal control problems by introducing a hybrid (periodic) extension of the classic Differential and Difference Riccati Equations, thus leading to the notion of Monodromy Riccati Equation. Interestingly, due to the periodic nature of the discrete-time events, the computation of the optimal feedback hinges upon the solution of a differential, ra...
This work deals with output regulation for a class of multivariable hybrid dynamical systems: namely...
This thesis deals with the optimal regulation of constrained discrete-time systems. The class of pro...
In this paper, the problem of linear time invariant state feedback stabilization for a class of hybr...
The main objective of this paper is to characterize feedback control laws that are optimal with resp...
For linear hybrid automata, namely switched linear autonomous systems whose mode of operation is det...
In this paper we study the solution to optimal control problems for discrete time linear hybrid syst...
This work deals with output regulation in multivariable hybrid systems featuring a continuous-time l...
This thesis studies the Switched Linear Quadratic Regulator (SLQR) problem, over a hybrid (continuou...
In this paper we study the solution to optimal control problems for constrained discrete-time linear...
The problem of output regulation for a class of hybrid linear systems characterized by periodic jump...
Abstract. We give a survey of computational algorithms derived in a series of papers for solution of...
In this paper, the disturbance attenuation problem is formulated and solved for a class of linear hy...
This paper is concerned with the long-standing problems of linear quadratic regulation (LQR) control...
dynamics periodically affected by instantaneous changes of the state. More precisely, given a hybrid...
This work deals with output regulation for a class of multivariable hybrid dynamical systems: namely...
This thesis deals with the optimal regulation of constrained discrete-time systems. The class of pro...
In this paper, the problem of linear time invariant state feedback stabilization for a class of hybr...
The main objective of this paper is to characterize feedback control laws that are optimal with resp...
For linear hybrid automata, namely switched linear autonomous systems whose mode of operation is det...
In this paper we study the solution to optimal control problems for discrete time linear hybrid syst...
This work deals with output regulation in multivariable hybrid systems featuring a continuous-time l...
This thesis studies the Switched Linear Quadratic Regulator (SLQR) problem, over a hybrid (continuou...
In this paper we study the solution to optimal control problems for constrained discrete-time linear...
The problem of output regulation for a class of hybrid linear systems characterized by periodic jump...
Abstract. We give a survey of computational algorithms derived in a series of papers for solution of...
In this paper, the disturbance attenuation problem is formulated and solved for a class of linear hy...
This paper is concerned with the long-standing problems of linear quadratic regulation (LQR) control...
dynamics periodically affected by instantaneous changes of the state. More precisely, given a hybrid...
This work deals with output regulation for a class of multivariable hybrid dynamical systems: namely...
This thesis deals with the optimal regulation of constrained discrete-time systems. The class of pro...
In this paper, the problem of linear time invariant state feedback stabilization for a class of hybr...