Abstract Hybrid systems combine continuous-time and discrete be-haviours. Simulation is one of the tools to obtain insight in dynamical sys-tems behaviour. Simulation results provide information on performance of system and are helpful in detecting potential weaknesses and errors. Moreover, the results are handy in choosing adequate control strategies and parameters. In our contribution we report a work in progress, a technique for simu-lation of Behavioural Hybrid Process Calculus, an extension of process algebra that is suitable for the modelling and analysis of hybrid systems.
We propose a process algebra obtained by extending a combination of the process algebra with continu...
Equation-based modelling of hybrid systems has to consider dynamical systems consisting of component...
Modeling and control of hybrid systems, with particular emphasis on process control applications, ar...
Systems modeling and simulation allow gaining insight in dynamical systems behavior. Simulation resu...
Process algebra is a theoretical framework for the modelling and analysis of the behaviour of concur...
Process algebra is a theoretical framework for the modelling and anal-ysis of the behaviour of concu...
Process algebra is a theoretical framework for the modelling and analysis of the behaviour of concur...
Progress in electronics requires novel techniques for modelling, design and production. Formal model...
Abstract: Process algebra is a theoretical framework for the modelling and analysis of the behaviour...
Process algebra is a theoretical framework for the modelling and analysis of the behaviour of concur...
Computer controlled systems are almost omnipresent nowadays. We expect such systems to function prop...
A hybrid system is a system that presents both continuous time evolution and discrete events. To def...
Hybrid dynamics in process control arise for various reasons. The main source is the interaction bet...
Wherever continuous and discrete dynamics interact, hybrid systems arise. This is especially the cas...
AbstractWe propose a process algebra obtained by extending a combination of the process algebra with...
We propose a process algebra obtained by extending a combination of the process algebra with continu...
Equation-based modelling of hybrid systems has to consider dynamical systems consisting of component...
Modeling and control of hybrid systems, with particular emphasis on process control applications, ar...
Systems modeling and simulation allow gaining insight in dynamical systems behavior. Simulation resu...
Process algebra is a theoretical framework for the modelling and analysis of the behaviour of concur...
Process algebra is a theoretical framework for the modelling and anal-ysis of the behaviour of concu...
Process algebra is a theoretical framework for the modelling and analysis of the behaviour of concur...
Progress in electronics requires novel techniques for modelling, design and production. Formal model...
Abstract: Process algebra is a theoretical framework for the modelling and analysis of the behaviour...
Process algebra is a theoretical framework for the modelling and analysis of the behaviour of concur...
Computer controlled systems are almost omnipresent nowadays. We expect such systems to function prop...
A hybrid system is a system that presents both continuous time evolution and discrete events. To def...
Hybrid dynamics in process control arise for various reasons. The main source is the interaction bet...
Wherever continuous and discrete dynamics interact, hybrid systems arise. This is especially the cas...
AbstractWe propose a process algebra obtained by extending a combination of the process algebra with...
We propose a process algebra obtained by extending a combination of the process algebra with continu...
Equation-based modelling of hybrid systems has to consider dynamical systems consisting of component...
Modeling and control of hybrid systems, with particular emphasis on process control applications, ar...