Add to ORKGThe theory of hybrid systems studies the combination of continuous and discrete behaviour. "V hell discrete software IS combined with mechanical and electrical components, or IS interacting with, for example, chemical processes, an embed-ded system aris(1s in which the interaction between the continuous behaviou
Many of today's electro-mechanical devices exhibit both continuous and discrete behavior. Model...
Continuous system dynamics can be described by, possibly large, systems of differential equations. T...
Hybrid systems are a fusion of continuous dynamical systems and discrete dynamical systems. They fre...
A hybrid system is a dynamical system whose evolution depends on a coupling between variables that t...
This chapter gives an informal introduction to hybrid dynamical systems and illlustrates by simple e...
This paper describes a comprehensive and systematic framework for building mixed continuous/discrete...
This paper develops a classification of transition be-haviors for hybrid dynamic systems. Physical s...
Introduction Used in this particular context, the term hybrid system refers to a combination of obj...
In contrast to what we know about controlling, verifying and reasoning about discrete state transiti...
This contribution provides an introduction to the topic of discrete models for hybrid systems. It mo...
Hybrid systems are dynamical systems with interacting continuous-time dynamics (mod-eled, for exampl...
Hybrid state systems (HSS) are modeled as a combination of Discrete State (DSS) and Continuous State...
Hybrid Systems are dynamical systems presenting both discrete and continuous evolution. Hybrid Autom...
Hybrid systems combine piecewise continuous behavior with discrete transitions. Hybrid dynamic syste...
Hybrid systems are defined as systems that exhibit mixed properties of continuous-time systems
Many of today's electro-mechanical devices exhibit both continuous and discrete behavior. Model...
Continuous system dynamics can be described by, possibly large, systems of differential equations. T...
Hybrid systems are a fusion of continuous dynamical systems and discrete dynamical systems. They fre...
A hybrid system is a dynamical system whose evolution depends on a coupling between variables that t...
This chapter gives an informal introduction to hybrid dynamical systems and illlustrates by simple e...
This paper describes a comprehensive and systematic framework for building mixed continuous/discrete...
This paper develops a classification of transition be-haviors for hybrid dynamic systems. Physical s...
Introduction Used in this particular context, the term hybrid system refers to a combination of obj...
In contrast to what we know about controlling, verifying and reasoning about discrete state transiti...
This contribution provides an introduction to the topic of discrete models for hybrid systems. It mo...
Hybrid systems are dynamical systems with interacting continuous-time dynamics (mod-eled, for exampl...
Hybrid state systems (HSS) are modeled as a combination of Discrete State (DSS) and Continuous State...
Hybrid Systems are dynamical systems presenting both discrete and continuous evolution. Hybrid Autom...
Hybrid systems combine piecewise continuous behavior with discrete transitions. Hybrid dynamic syste...
Hybrid systems are defined as systems that exhibit mixed properties of continuous-time systems
Many of today's electro-mechanical devices exhibit both continuous and discrete behavior. Model...
Continuous system dynamics can be described by, possibly large, systems of differential equations. T...
Hybrid systems are a fusion of continuous dynamical systems and discrete dynamical systems. They fre...