Distributed Simulation of Heterogeneous and Real-time Systems

Distributed Simulation of Heterogeneous and Real-time Systems
Gilles Lasnier, Janette Cardoso, Pierre Siron, Claire Pagetti, Patricia Derler

Citation
Gilles Lasnier, Janette Cardoso, Pierre Siron, Claire Pagetti, Patricia Derler. "Distributed Simulation of Heterogeneous and Real-time Systems". 17th IEEE/ACM International Symposium on Distributed Simulation and Real Time Applications, November, 2013; Received Best Paper Award.

Abstract
This work describes a framework for distributed simulation of cyber-physical systems (CPS). Modern CPS comprise large numbers of heterogeneous components, typically designed in very different tools and languages that are not or not easily composeable. Evaluating such large systems requires tools that integrate all components in a systematic, well-defined manner. This work leverages existing frameworks to facilitate the integration offers validation by simulation. A framework for distributed simulation is the IEEE High-Level Architecture (HLA) compliant tool CERTI, which provides the infrastructure for co-simulation of models in various simulation environments as well as hardware components. We use CERTI in combination with Ptolemy II, an environment for modeling and simulating heterogeneous systems. In particular, we focus on models of a CPS, including the physical dynamics of a plant, the software that controls the plant, and the network that enables the communication between controllers. We describe the Ptolemy extensions for the interaction with HLA and demonstrate the approach on a flight control system simulation

Electronic downloads

dsrt2013.pdf · application/pdf · 670 kbytes
http://dx.doi.org/10.1109/DS-RT.2013.14

Citation formats

HTML

Gilles Lasnier, Janette Cardoso, Pierre Siron, Claire
Pagetti, Patricia Derler. <a
href="http://chess.eecs.berkeley.edu/pubs/1023.html"
>Distributed Simulation of Heterogeneous and Real-time
Systems</a>, 17th IEEE/ACM International Symposium on
Distributed Simulation and Real Time Applications, November,
2013; Received Best Paper Award.

Plain text

Gilles Lasnier, Janette Cardoso, Pierre Siron, Claire
Pagetti, Patricia Derler. "Distributed Simulation of
Heterogeneous and Real-time Systems". 17th IEEE/ACM
International Symposium on Distributed Simulation and Real
Time Applications, November, 2013; Received Best Paper Award.

BibTeX

@inproceedings{LasnierCardosoSironPagettiDerler13_DistributedSimulationOfHeterogeneousRealtimeSystems,
    author = {Gilles Lasnier and Janette Cardoso and Pierre
              Siron and Claire Pagetti and Patricia Derler},
    title = {Distributed Simulation of Heterogeneous and
              Real-time Systems},
    booktitle = {17th IEEE/ACM International Symposium on
              Distributed Simulation and Real Time Applications},
    month = {November},
    year = {2013},
    note = {Received Best Paper Award},
    abstract = {This work describes a framework for distributed
              simulation of cyber-physical systems (CPS). Modern
              CPS comprise large numbers of heterogeneous
              components, typically designed in very different
              tools and languages that are not or not easily
              composeable. Evaluating such large systems
              requires tools that integrate all components in a
              systematic, well-defined manner. This work
              leverages existing frameworks to facilitate the
              integration offers validation by simulation. A
              framework for distributed simulation is the IEEE
              High-Level Architecture (HLA) compliant tool
              CERTI, which provides the infrastructure for
              co-simulation of models in various simulation
              environments as well as hardware components. We
              use CERTI in combination with Ptolemy II, an
              environment for modeling and simulating
              heterogeneous systems. In particular, we focus on
              models of a CPS, including the physical dynamics
              of a plant, the software that controls the plant,
              and the network that enables the communication
              between controllers. We describe the Ptolemy
              extensions for the interaction with HLA and
              demonstrate the approach on a flight control
              system simulation},
    URL = {http://chess.eecs.berkeley.edu/pubs/1023.html}
}

Posted by Patricia Derler on 7 Nov 2013.
Groups: ptolemy
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