As many real world systems evolve according to phenomena characterized by a continuous time dependency, literature studied several approaches to correctly capture all their aspects. Since their analysis is not trivial, different high level approaches have been proposed, such as classical pure mathematical analysis or tool-oriented frameworks like Fluid Stochastic Petri Nets. Each approach has its specific purposes and naturally addresses some application field. This paper instead focuses on the simulation of models written in a custom Hybrid Systems (HS) formalism. The key aspect of this work is focused on the use within a framework called SIMTHESys of a function describing how the fluid variables evolve, providing more efficient simulation...
First-order hybrid Petri nets are models that consist of continuous places holding fluid, discrete p...
Abstract. Hybrid systems|those composed of the interaction of discrete and continuous inputs, output...
Abstract. The modeling and analysis of hybrid systems is a recent and challenging research area whic...
As many real world systems evolve according to phenomena characterized by a continuous time dependen...
Hybrid systems (HS) have been proven a valid formalism to study and analyze specific issues in a var...
AbstractHybrid systems (HS) have been proven a valid formalism to study and analyze specific issues ...
This paper describes a method for the simulation of Fluid Stochastic Petri Nets (FSPNs). The FSPNs a...
This paper develops a mathematical framework for hybrid physical system models. Hybrid models of dyn...
AbstractThis paper describes a comprehensive and systematic framework for building mixed continuous/...
The distinguishing characteristic of hybrid systems is the interaction between a continuous-time and...
The modeling and analysis of hybrid systems is a recent and challenging research area which is actua...
This paper deals with the simulation of hybrid systems. These systems mix two different aspects: con...
Abstract. This article presents an approach to simulating hybrid sys-tems. We show how a discrete co...
Equation-based modelling of hybrid systems has to consider dynamical systems consisting of component...
First-order hybrid Petri nets are models that consist of continuous places holding fluid, discrete p...
Abstract. Hybrid systems|those composed of the interaction of discrete and continuous inputs, output...
Abstract. The modeling and analysis of hybrid systems is a recent and challenging research area whic...
As many real world systems evolve according to phenomena characterized by a continuous time dependen...
Hybrid systems (HS) have been proven a valid formalism to study and analyze specific issues in a var...
AbstractHybrid systems (HS) have been proven a valid formalism to study and analyze specific issues ...
This paper describes a method for the simulation of Fluid Stochastic Petri Nets (FSPNs). The FSPNs a...
This paper develops a mathematical framework for hybrid physical system models. Hybrid models of dyn...
AbstractThis paper describes a comprehensive and systematic framework for building mixed continuous/...
The distinguishing characteristic of hybrid systems is the interaction between a continuous-time and...
The modeling and analysis of hybrid systems is a recent and challenging research area which is actua...
This paper deals with the simulation of hybrid systems. These systems mix two different aspects: con...
Abstract. This article presents an approach to simulating hybrid sys-tems. We show how a discrete co...
Equation-based modelling of hybrid systems has to consider dynamical systems consisting of component...
First-order hybrid Petri nets are models that consist of continuous places holding fluid, discrete p...
Abstract. Hybrid systems|those composed of the interaction of discrete and continuous inputs, output...
Abstract. The modeling and analysis of hybrid systems is a recent and challenging research area whic...