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| ||<tablestyle="float:right;"#FFFFF0> {{attachment:ptolemyEPlusSimuMac.png||width="500"}} <<BR>> ''BCVTB system model that links !EnergyPlus with Simulink.'' <<BR>> <<BR>> '''~+News+~''' <<BR>> April 15, 2016: [[Download|Version 1.6.0]] has been released. <<BR>> January 30, 2015: [[Download|Version 1.5.0]] has been released. <<BR>> February 16, 2011: A [[https://groups.google.com/group/bcvtb|mailing list]] has been started to provide support. <<BR>> <<BR>>'''~+Links+~'''<<BR>> Documentation: <<BR>> [[http://simulationresearch.lbl.gov/bcvtb/releases/latest/doc/manual/index.xhtml|Manual]] and [[http://simulationresearch.lbl.gov/bcvtb/releases/latest/doc/code/index.html|source code]]. <<BR>> [[Publications]]. <<BR>> [[GettingStarted|Download and getting started]]. <<BR>> [[Help]]. || | |
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| ||<tablestyle="float:right;" bgcolor="#FFFFF0">{{attachment:ptolemyEPlusSimuMac.png||width=500}} <<BR>> ''BCVTB system model that links !EnergyPlus with Simulink.'' <<BR>> <<BR>> '''~+News+~''' <<BR>> February 16, 2011: A [[https://groups.google.com/group/bcvtb|mailing list]] has been started to provide support. <<BR>> November 17, 2010: [[Download|Version 0.8.0]] has been released. <<BR>> <<BR>>'''~+Links+~'''<<BR>> Documentation: [[http://simulationresearch.lbl.gov/bcvtb/latest/doc/manual/index.xhtml|Manual]] and [[http://simulationresearch.lbl.gov/bcvtb/latest/doc/code/index.html|source code]]. <<BR>>[[GettingStarted|Download and getting started]]. <<BR>> [[Help]]. || | |
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| The Building Controls Virtual Test Bed (BCVTB) is a software environment that allows expert users to couple different simulation programs for co-simulation, and to couple simulation programs with actual hardware. For example, the BCVTB allows to simulate a building and HVAC system in !EnergyPlus and the control logic in MATLAB/Simulink, while exchanging data between the software as they simulate. The BCVTB is based on the [[http://ptolemy.berkeley.edu/ptolemyII/index.htm|Ptolemy II]] software environment. The BCVTB allows expert users of simulation to expand the capabilities of individual programs by linking them to other programs. Due to the different programs that may be involved in distributed simulation, familiarity with configuring programs is essential. | The Building Controls Virtual Test Bed (BCVTB) is a software environment that allows users to couple different simulation programs for co-simulation, and to couple simulation programs with actual hardware. For example, the BCVTB allows to simulate a building in !EnergyPlus and the HVAC and control system in Modelica, while exchanging data between the software as they simulate. The BCVTB is based on the [[http://ptolemy.berkeley.edu/ptolemyII/index.htm|Ptolemy II]] software environment. The BCVTB allows expert users of simulation to expand the capabilities of individual programs by linking them to other programs. Due to the different programs that may be involved in distributed simulation, familiarity with configuring programs is essential. |
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| Programs that are linked to the BCVTB are * the [[http://www.energyplus.gov|EnergyPlus]] whole building energy simulation program, * the [[http://www.mathworks.com/products/matlab|MATLAB]] and [[http://www.mathworks.com/products/simulink/|Simulink]] tools for scientific computing, |
Programs that are linked to the BCVTB are * the [[http://www.energyplus.gov|EnergyPlus]] whole building energy simulation program, |
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| * [[https://www.fmi-standard.org/start|Functional Mock-up Units (FMU)]] for co-simulation and model-exchange for the Functional Mock-up Interface (FMI) 1.0 and 2.0, * the [[http://www.mathworks.com/products/matlab|MATLAB]] and [[http://www.mathworks.com/products/simulink/|Simulink]] tools for scientific computing, |
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| * the [[http://www.esru.strath.ac.uk/Programs/ESP-r.htm|ESP-r]] integrated building energy modeling program, * the [[http://http://www.trnsys.com/|TRNSYS]] system simulation program, |
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| * innovate new HVAC system and control architectures for which models do not yet exist in off-the-shelve building simulation programs, and * analyze dynamic effects of HVAC systems, modeled in Modelica, and their local and supervisory control loops, modeled in MATLAB/Simulink, Modelica or Ptolemy. |
* innovate new HVAC system and control architectures for which models do not yet exist in off-the-shelve building simulation programs, * analyze dynamic effects of HVAC systems, modeled in Modelica, and their local and supervisory control loops, modeled in MATLAB/Simulink, Modelica or Ptolemy, and |
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| [[MichaelWetter|Michael Wetter]] and Philip Haves<<BR>> Lawrence Berkeley National Laboratory<<BR>> [[http://btech.lbl.gov|Building Technologies Department]]<<BR>> {MWetter,PHaves}@lbl.gov | [[MichaelWetter|Michael Wetter]], Thierry S. Nouidui and Philip Haves<<BR>> Lawrence Berkeley National Laboratory<<BR>> [[http://btech.lbl.gov|Building Technologies and Urban Systems Division]]<<BR>> {MWetter,TSNouidui,PHaves}@lbl.gov |
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| Special thanks go to Prof. Edward A. Lee and Christopher Brooks from the University of California at Berkeley for their support in integrating the BCVTB functionality into the Ptolemy II software. | Special thanks go to Prof. Edward A. Lee and Christopher Brooks from the University of California at Berkeley for their support in integrating the BCVTB functionality into the Ptolemy II software, and implementing the Functional Mock-up Unit for co-simulation import interface in the BCVTB. |
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| We would also like to thank | We would also like to thank * Timothy P. !McDowell from Thermal Energy System Specialists (TESS) for the implementation of the TRNSYS interface. * Pieter-Jan Hoes and Roel Loonen from the Technical University of Eindhoven for the implementation of the ESP-r interface. |
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| * Andrew !McNeill from LBNL for providing the Radiance example. | * Andrew !McNeil from LBNL for providing the Radiance example. |
Building Controls Virtual Test Bed
|
The Building Controls Virtual Test Bed (BCVTB) is a software environment that allows users to couple different simulation programs for co-simulation, and to couple simulation programs with actual hardware. For example, the BCVTB allows to simulate a building in EnergyPlus and the HVAC and control system in Modelica, while exchanging data between the software as they simulate. The BCVTB is based on the Ptolemy II software environment. The BCVTB allows expert users of simulation to expand the capabilities of individual programs by linking them to other programs. Due to the different programs that may be involved in distributed simulation, familiarity with configuring programs is essential.
Programs that are linked to the BCVTB are
the EnergyPlus whole building energy simulation program,