This paper proposes two approaches for the integration of cyber-physical systems in a production line in order to obtain predictions concerning the actual production, core operation in the context of Industry 4.0. The first approach relies on the Multi-Level paradigm where multiple descriptions of the same CPS are modeled with different levels of details. Then, the models are switched at runtime. The second approach relies on abstraction techniques of CPS maintaining a certain levels of details. The two approaches are validated and compared with a real use case scenario to identify the most effective simulation strategy
Industry 4.0 comprises a diverse array of technologies and components that are revolutionizing the m...
International audienceEnterprise Interoperability is getting more important in a world where enterpr...
Modeling and analysis of Cyber-Physical Systems (CPS) is an inherently multi-disciplinary endeavour....
Recent advances in manufacturing industry, and notably in the Industry 4.0 context, promote the deve...
This open access book coherently gathers well-founded information on the fundamentals of and formali...
Manufacturing companies are experiencing the fourth industrial revolution characterised by the intro...
Modern highly technological production puts forward new requirements and approaches to the implement...
Cyber-Physical Systems (CPS) have evolved continuously over the past decades with increasing functio...
Modern highly technological production puts forward new requirements and approaches to the implement...
Simulation systems need to be able to serve the need of a large domain of users with varying require...
Simulations are becoming one of the most important techniques supporting production preparation, eve...
In Industry 4.0, many manufacturers have built smart factories by ICTs (Information and Communicatio...
Multi-Paradigm Modelling for Cyber-Physical Systems explores modeling and analysis as crucial activi...
Part 2: Open Cloud Computing Architecture for Smart Manufacturing and Cyber Physical Production Syst...
Industry 4.0 comprises a diverse array of technologies and components that are revolutionizing the m...
Industry 4.0 comprises a diverse array of technologies and components that are revolutionizing the m...
International audienceEnterprise Interoperability is getting more important in a world where enterpr...
Modeling and analysis of Cyber-Physical Systems (CPS) is an inherently multi-disciplinary endeavour....
Recent advances in manufacturing industry, and notably in the Industry 4.0 context, promote the deve...
This open access book coherently gathers well-founded information on the fundamentals of and formali...
Manufacturing companies are experiencing the fourth industrial revolution characterised by the intro...
Modern highly technological production puts forward new requirements and approaches to the implement...
Cyber-Physical Systems (CPS) have evolved continuously over the past decades with increasing functio...
Modern highly technological production puts forward new requirements and approaches to the implement...
Simulation systems need to be able to serve the need of a large domain of users with varying require...
Simulations are becoming one of the most important techniques supporting production preparation, eve...
In Industry 4.0, many manufacturers have built smart factories by ICTs (Information and Communicatio...
Multi-Paradigm Modelling for Cyber-Physical Systems explores modeling and analysis as crucial activi...
Part 2: Open Cloud Computing Architecture for Smart Manufacturing and Cyber Physical Production Syst...
Industry 4.0 comprises a diverse array of technologies and components that are revolutionizing the m...
Industry 4.0 comprises a diverse array of technologies and components that are revolutionizing the m...
International audienceEnterprise Interoperability is getting more important in a world where enterpr...
Modeling and analysis of Cyber-Physical Systems (CPS) is an inherently multi-disciplinary endeavour....