In this paper we consider continuous-time stochastic linear control systems and propose model reduction techniques which are based on the notion of equivalence via stochastic bisimulation. Starting from our earlier work on equivalences given for discrete-time stochastic control systems we first extend the notion of stochastic bisimulation equivalence and the corresponding geometric conditions to the present framework. We then define the quotient linear systems induced by the equivalence notion and show that the obtained system is equivalent via stochastic bisimulation to the original one. We finally discuss model reduction to the system with minimal dimension in the state space
AbstractIn this paper we propose a new equivalence relation for dynamical and control systems called...
Symbolic approaches for control design construct finite-state abstract models that are related to th...
Abstract. Symbolic approaches to the control design over complex systems employ the construction of ...
In this paper we consider continuous-time stochastic linear control systems and propose model reduct...
In this paper we propose definitions of equivalence via stochastic bisimulation and of equivalence o...
A general notion of bisimulation is defined for linear input-state-output systems, using analogies w...
A general notion of bisimulation is studied for dynamical systems. An algebraic characterization of ...
Stochastic systems have been widely investigated and employed in numerousapplications in different a...
A general notion of bisimulation is studied for dynamical systems. An algebraic characterization of ...
International audienceThis paper considers discrete-time linear systems controlled by a quantized la...
This paper presents theory, algorithms, and validation results for system identification of continuo...
Controller synthesis techniques for continuous systems with respect to temporal logic specifications...
AbstractIn a recent paper Baier et al. [Lecture Notes in Computer Science, Springer-Verlag, 2000, p....
AbstractThe classical theory of controllability for deterministic systems is extended to linear stoc...
AbstractIn this paper we propose a new equivalence relation for dynamical and control systems called...
Symbolic approaches for control design construct finite-state abstract models that are related to th...
Abstract. Symbolic approaches to the control design over complex systems employ the construction of ...
In this paper we consider continuous-time stochastic linear control systems and propose model reduct...
In this paper we propose definitions of equivalence via stochastic bisimulation and of equivalence o...
A general notion of bisimulation is defined for linear input-state-output systems, using analogies w...
A general notion of bisimulation is studied for dynamical systems. An algebraic characterization of ...
Stochastic systems have been widely investigated and employed in numerousapplications in different a...
A general notion of bisimulation is studied for dynamical systems. An algebraic characterization of ...
International audienceThis paper considers discrete-time linear systems controlled by a quantized la...
This paper presents theory, algorithms, and validation results for system identification of continuo...
Controller synthesis techniques for continuous systems with respect to temporal logic specifications...
AbstractIn a recent paper Baier et al. [Lecture Notes in Computer Science, Springer-Verlag, 2000, p....
AbstractThe classical theory of controllability for deterministic systems is extended to linear stoc...
AbstractIn this paper we propose a new equivalence relation for dynamical and control systems called...
Symbolic approaches for control design construct finite-state abstract models that are related to th...
Abstract. Symbolic approaches to the control design over complex systems employ the construction of ...