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ref_modelica.bib
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ref_modelica.bib
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@inproceedings{elmqvistModelicaEvolutionMy2014,
title = {Modelica {{Evolution}} -- {{From My Perspective}}},
booktitle = {Proceedings of the 10th {{International Modelica Conference}}},
author = {Elmqvist, Hilding},
year = {2014},
month = mar,
address = {Lund, Sweden},
doi = {10.3384/ECP1409617},
url = {https://2014.international.conference.modelica.org/proceedings/html/submissions/ECP1409617_Elmqvist.pdf},
urldate = {2023-05-27}
}
@inproceedings{elmqvistStateMachinesModelica2012,
title = {State {{Machines}} in {{Modelica}}},
booktitle = {Proceedings of 9th {{International MODELICA Conference}}},
author = {Elmqvist, Hilding and Gaucher, Fabien and Mattson, Sven Erik and Dupont, Francois},
year = {2012},
month = sep,
pages = {37--46},
address = {Munich, Germany},
doi = {10.3384/ecp1207637},
url = {https://ep.liu.se/en/conference-article.aspx?series=ecp&issue=76&Article_No=3},
urldate = {2023-08-25},
abstract = {The scope of Modelica has been extended from a language primarily intended for physical systems modeling to modeling of complete systems by allowing the modeling of control systems including state machines.},
langid = {english}
}
@article{fritzsonOpenModelicaIntegratedEnvironment2020,
title = {The {{OpenModelica Integrated Environment}} for {{Modeling}}, {{Simulation}}, and {{Model-Based Development}}},
author = {Fritzson, Peter and Pop, Adrian and Abdelhak, Karim and Ashgar, Adeel and Bachmann, Bernhard and Braun, Willi and Bouskela, Daniel and Braun, Robert and Buffoni, Lena and Casella, Francesco and Castro, Rodrigo and Franke, R{\"u}diger and Fritzson, Dag and Gebremedhin, Mahder and Heuermann, Andreas and Lie, Bernt and Mengist, Alachew and Mikelsons, Lars and Moudgalya, Kannan and Ochel, Lennart and Palanisamy, Arunkumar and Ruge, Vitalij and Schamai, Wladimir and Sj{\"o}lund, Martin and Thiele, Bernhard and Tinnerholm, John and {\"O}stlund, Per},
year = {2020},
month = oct,
volume = {41},
number = {4},
pages = {241--295},
doi = {10.4173/mic.2020.4.1},
url = {https://www.mic-journal.no/ABS/MIC-2020-2020-4.asp},
urldate = {2021-10-07},
langid = {american}
}
@book{fritzsonPrinciplesObjectOrientedModeling2015,
title = {Principles of {{Object-Oriented Modeling}} and {{Simulation}} with {{Modelica}} 3.3: {{A Cyber-Physical Approach}}},
shorttitle = {Principles of {{Object-Oriented Modeling}} and {{Simulation}} with {{Modelica}} 3.3},
author = {Fritzson, Peter},
year = {2015},
month = apr,
edition = {2},
publisher = {Wiley},
url = {https://www.wiley.com/en-gb/Principles+of+Object+Oriented+Modeling+and+Simulation+with+Modelica+3+3%3A+A+Cyber+Physical+Approach%2C+2nd+Edition-p-9781118859124},
urldate = {2021-10-07},
abstract = {Fritzson covers the Modelica language in impressive depth from the basic concepts such as cyber-physical, equation-base, object-oriented, system, model, and simulation, while also incorporating over a hundred exercises and their solutions for a tutorial, easy-to-read experience. The only book with complete Modelica 3.3 coverage Over one hundred exercises and solutions Examines basic concepts such as cyber-physical, equation-based, object-oriented, system, model, and simulation},
isbn = {978-1-118-85912-4},
langid = {british}
}
@misc{ModelicaLanguageSpecification2024,
title = {{{Modelica}}{\textregistered} -- {{A Unified Object-Oriented Language}} for {{Systems Modeling}}: {{Language Specification}}},
year = {2024},
month = aug,
url = {https://specification.modelica.org/master/},
urldate = {2024-09-06},
abstract = {This document defines the Modelica language, version 3.7-dev, which is developed by the Modelica Association, a non-profit organization with seat in Link{\"o}ping, Sweden. Modelica is a freely available, object-oriented language for modeling of large, complex, and heterogeneous systems. It is suited for multi-domain modeling, for example, mechatronic models in robotics, automotive and aerospace applications involving mechanical, electrical, hydraulic control and state machine subsystems, process oriented applications and generation and distribution of electric power. Models in Modelica are mathematically described by differential, algebraic and discrete equations. No particular variable needs to be solved for manually. A Modelica tool will have enough information to decide that automatically. Modelica is designed such that available, specialized algorithms can be utilized to enable efficient handling of large models having more than one hundred thousand equations. Modelica is suited and used for hardware-in-the-loop simulations and for embedded control systems. More information is available at https://modelica.org.},
howpublished = {Modelica Association}
}
@misc{thieleStateMachinesOpenModelica2015,
title = {State {{Machines}} in {{OpenModelica}} - {{Current Status}} and {{Further Development}}},
author = {Thiele, Bernhard},
year = {2015},
month = feb,
url = {https://openmodelica.org/images/docs/openmodelica2015/OpenModelica2015-talk14-OMStateMachines_Bernhard%20Thiele.pdf},
langid = {english}
}