@inproceedings{11,
  keywords = {co-simulation, Cyber-Physical Systems, distributed simulation, execution-integration, model integration, modeling and simulation, simulation integration platforms, tool-integration},
  author = {Himanshu Neema and Janos Sztipanovits and Cornelius Steinbrink and Thomas Raub and Bastian Cornelsen and Sebastian Lehnhoff},
  title = {Simulation Integration Platforms for Cyber-Physical Systems},
  abstract = {Simulation-based analysis is essential in the model-based design process of Cyber-Physical Systems (CPS). Since heterogeneity is inherent to CPS, virtual prototyping of CPS designs and the simulation of their behavior in various environments typically involve a number of physical and computation/communication domains interacting with each other. Affordability of the model-based design process makes the use of existing domain-specific modeling and simulation tools all but mandatory. However, this pressure establishes the requirement for integrating the domain-specific models and simulators into a semantically consistent and efficient system-of-system simulation. The focus of the paper is the interoperability of popular integration platforms supporting heterogeneous multi-model simulations. We examine the relationship among three existing platforms: the High-Level Architecture (HLA)-based CPS Wind Tunnel (CPSWT), mosaik, and the Functional Mockup Unit (FMU). We discuss approaches to establish interoperability and present results of ongoing work in the context of an example.},
  year = {2019},
  journal = {The First Workshop on Design Automation for CPS and IoT (DESTION 2019)},
  month = {04/2019},
  publisher = {ACM},
  address = {Montreal, Canada},
}