*banner
 

CyPhySim - A Cyber-Physical Systems Simulator
Christopher Brooks, Fabio Cremona, Edward A. Lee, David Lorenzetti, Thierry Nouidui, Michael Wetter

Citation
Christopher Brooks, Fabio Cremona, Edward A. Lee, David Lorenzetti, Thierry Nouidui, Michael Wetter. "CyPhySim - A Cyber-Physical Systems Simulator". Talk or presentation, 16, October, 2015; Presented at the Eleventh Biennial Ptolemy Miniconference, Berkeley.

Abstract
This poster describes an open-source simulator for cyberphysical systems called CyPhySim that is based on Ptolemy II. This simulator supports classical (Runge-Kutta) and quantized-state simulation of ordinary differential equations, modal models (hybrid systems), discrete-event models, the Functional Mockup Interface (FMI) for model-exchange and co-simulation, discrete-time (periodic) systems, and algebraic loop solvers. CyPhySim provides a graphical editor, an XML file syntax for models, and an open API for programmatic construction of models. It includes an innovation called "smooth tokens," which allow for a blend of numerical and symbolic computation, and for certain kinds of system models, dramatically reducing the computation required for simulation.

Electronic downloads

Citation formats  
  • HTML
    Christopher Brooks, Fabio Cremona, Edward A. Lee, David
    Lorenzetti, Thierry Nouidui, Michael Wetter. <a
    href="http://chess.eecs.berkeley.edu/pubs/1120.html"><i>CyPhySim
    - A Cyber-Physical Systems Simulator</i></a>,
    Talk or presentation,  16, October, 2015; Presented at the
    <a
    href="http://ptolemy.eecs.berkeley.edu/conferences/15"
    >Eleventh Biennial Ptolemy Miniconference</a>,
    Berkeley.
  • Plain text
    Christopher Brooks, Fabio Cremona, Edward A. Lee, David
    Lorenzetti, Thierry Nouidui, Michael Wetter. "CyPhySim
    - A Cyber-Physical Systems Simulator". Talk or
    presentation,  16, October, 2015; Presented at the <a
    href="http://ptolemy.eecs.berkeley.edu/conferences/15"
    >Eleventh Biennial Ptolemy Miniconference</a>,
    Berkeley.
  • BibTeX
    @presentation{BrooksCremonaLeeLorenzettiNouiduiWetter15_CyPhySimCyberPhysicalSystemsSimulator,
        author = {Christopher Brooks and Fabio Cremona and Edward A.
                  Lee and David Lorenzetti and Thierry Nouidui and
                  Michael Wetter},
        title = {CyPhySim - A Cyber-Physical Systems Simulator},
        day = {16},
        month = {October},
        year = {2015},
        note = {Presented at the <a
                  href="http://ptolemy.eecs.berkeley.edu/conferences/15"
                  >Eleventh Biennial Ptolemy Miniconference</a>,
                  Berkeley.},
        abstract = {This poster describes an open-source simulator for
                  cyberphysical systems called CyPhySim that is
                  based on Ptolemy II. This simulator supports
                  classical (Runge-Kutta) and quantized-state
                  simulation of ordinary differential equations,
                  modal models (hybrid systems), discrete-event
                  models, the Functional Mockup Interface (FMI) for
                  model-exchange and co-simulation, discrete-time
                  (periodic) systems, and algebraic loop solvers.
                  CyPhySim provides a graphical editor, an XML file
                  syntax for models, and an open API for
                  programmatic construction of models. It includes
                  an innovation called "smooth tokens," which allow
                  for a blend of numerical and symbolic computation,
                  and for certain kinds of system models,
                  dramatically reducing the computation required for
                  simulation.},
        URL = {http://chess.eecs.berkeley.edu/pubs/1120.html}
    }
    

Posted by Christopher Brooks on 8 Oct 2015.
Groups: ptolemy
For additional information, see the Publications FAQ or contact webmaster at chess eecs berkeley edu.

Notice: This material is presented to ensure timely dissemination of scholarly and technical work. Copyright and all rights therein are retained by authors or by other copyright holders. All persons copying this information are expected to adhere to the terms and constraints invoked by each author's copyright.

©2002-2018 Chess