This paper presents an overview and formalization of the Functional Mock-up Interface (FMI) 3.0. The formalization captures the new FMI 3.0 standard and is intended to be used as an introduction for conceptualizing the use of clocks in the FMI standard to support the simulation of event-based cyber-physical systems. The FMI 3.0 standard supports two kinds of clock-based simulations: Synchronous Clocked Simulation to ensure predictable systems scheduling with multiple simultaneous events and scheduled execution to facilitate real-time simulations comprising multiple black-box models by allowing fine-grained control over the computation time of submodels. The formalization is a basis for developing tools for orchestrating, verifying and valid...
Co-Simulation is a rather general approach to the simulation of coupled technical systems and couple...
This paper presents a master algorithm for co-simulation of hybrid systems using the Functional Mock...
The Functional Mockup Interface (FMI) is a tool independent standard for the exchange of dynamic mod...
The modelling process of Cyber-physical Systems aggregates semantics and languages tailored to spec...
Cyber-Physical Systems consist of cyber components controlling physical entities. Their development ...
This paper defines a suite of requirements for future hy-brid cosimulation standards, and specifical...
Model-based design methodologies are commonly used in industry for the development of complex cyber-...
This paper defines a suite of requirements for future hybrid cosimulation standards, and specificall...
The development of Cyber Physical Systems (CPS) requires to model both the cyber (i.e., digital) par...
In this work we present a synergic integration of the Functional Mock-Up Interface (FMI) and Busines...
The Functional Mockup Interface (FMI) is a tool independent standard for the exchange of dynamic mod...
The Functional Mockup Interface (FMI) has evolved to an important standard in multidisciplinary simu...
In this paper, we explain how to achieve deterministic execution of FMUs (Functional Mockup Units) u...
A framework for co-simulation of human–machine interfaces in Cyber-Physical Systems (CPS) is present...
This paper presents our on-going work on developing a flexible framework for formal co-simulation of...
Co-Simulation is a rather general approach to the simulation of coupled technical systems and couple...
This paper presents a master algorithm for co-simulation of hybrid systems using the Functional Mock...
The Functional Mockup Interface (FMI) is a tool independent standard for the exchange of dynamic mod...
The modelling process of Cyber-physical Systems aggregates semantics and languages tailored to spec...
Cyber-Physical Systems consist of cyber components controlling physical entities. Their development ...
This paper defines a suite of requirements for future hy-brid cosimulation standards, and specifical...
Model-based design methodologies are commonly used in industry for the development of complex cyber-...
This paper defines a suite of requirements for future hybrid cosimulation standards, and specificall...
The development of Cyber Physical Systems (CPS) requires to model both the cyber (i.e., digital) par...
In this work we present a synergic integration of the Functional Mock-Up Interface (FMI) and Busines...
The Functional Mockup Interface (FMI) is a tool independent standard for the exchange of dynamic mod...
The Functional Mockup Interface (FMI) has evolved to an important standard in multidisciplinary simu...
In this paper, we explain how to achieve deterministic execution of FMUs (Functional Mockup Units) u...
A framework for co-simulation of human–machine interfaces in Cyber-Physical Systems (CPS) is present...
This paper presents our on-going work on developing a flexible framework for formal co-simulation of...
Co-Simulation is a rather general approach to the simulation of coupled technical systems and couple...
This paper presents a master algorithm for co-simulation of hybrid systems using the Functional Mock...
The Functional Mockup Interface (FMI) is a tool independent standard for the exchange of dynamic mod...