F.E.Cellier - Publications Related to Bond Graph Modeling

Books

  1. Cellier, F.E. (1991), Continuous System Modeling, Springer-Verlag, New York.

  2. Cellier, F.E. and J.J. Granda, Eds. (1995), Bond Graph Modeling and Simulation, Proc. of the 1995 SCS Western Multi-conference, Las Vegas, NV, January 15-18, 1995, The Society for Computer Simulation, Simulation Series, Vol. 27, No. 1, ISBN: 1-56555-037-4, 310 p.

  3. Cellier, F.E. and J.J. Granda, Eds. (2003), Bond Graph Modeling and Simulation, Proc. of the 2003 SCS Western Multi-conference, Orlando, FL, January 20-22, 2003, The Society for Computer Simulation, Simulation Series, Vol. 35, No. 2, ISBN: 1-56555-257-1, 323 p.

  4. Cellier, F.E. and J.J. Granda, Eds. (2010), Bond Graph Modeling and Simulation, Proc. of the 2010 SCS Spring Simulation Multi-conference, Orlando, FL, April 11-15, 2010, The Society for Computer Simulation, Simulation Series, Vol. 42, No. 2, ISBN: 978-1-61738-209-3, 230 p.

  5. Granda, J.J. and F.E. Cellier, Eds. (1993), Bond Graph Modeling and Simulation, Proc. of the 1993 SCS Western Multi-conference, San Diego, CA, January 17-20, 1993, The Society for Computer Simulation, Simulation Series, Vol. 25, No. 2, ISBN: 1-56555-019-6, 341 p.

  6. Granda, J.J. and F.E. Cellier, Eds. (1999), Bond Graph Modeling and Simulation, Proc. of the 1999 SCS Western Multi-conference, San Francisco, CA, January 18-20, 1999, The Society for Computer Simulation, Simulation Series, Vol. 31, No. 1, ISBN: 1-56555-155-9, 393 p.

  7. Granda, J.J. and F.E. Cellier, Eds. (2005), Bond Graph Modeling and Simulation, Proc. of the 2005 SCS Western Multi-conference, New Orleans, LA, January 23-25, 2005, The Society for Computer Simulation, Simulation Series, Vol. 37, No. 1, ISBN: 1-56555-287-3, 315 p.

  8. Granda, J.J. and F.E. Cellier, Eds. (2007), Bond Graph Modeling and Simulation, Proc. of the 2007 SCS Western Multi-conference, San Diego, CA, January 15-17, 2007, The Society for Computer Simulation, Simulation Series, Vol. 39, No. 1, ISBN: 1-56555-310-1, 263 p.

  9. Granda, J.J. and F.E. Cellier, Eds. (2012), Bond Graph Modeling and Simulation, Proc. of the 2012 SCS Summer Simulation Multi-conference, Genoa, Italy, July 9-11, 2012, The Society for Computer Simulation, Simulation Series, Vol. 44, No. 13, ISBN: 978-1-61839-985-4, 264 p.

Chapters in Books

  1. Cellier, F.E., H. Elmqvist, M. Otter (1995), Modeling from Physical Principles, The Control Handbook (W.S. Levine, ed.), CRC Press, Boca Raton, FL, pp.99-108.

  2. Cellier, F.E., H. Elmqvist, and M. Otter (2000), Modeling from Physical Principles, Control System Fundamentals, (W.S. Levine, ed.), CRC Press, Boca Raton, FL, pp. 99-108.

Journal Papers

  1. Borutzky, W., and F.E. Cellier (1996), Tearing Algebraic Loops in Bond Graphs, Trans. of SCS, 13(2), pp.102-115.

  2. Cellier, F.E. (1992), Hierarchical Non-Linear Bond Graphs: A Unified Methodology for Modeling Complex Physical Systems, Simulation, 58(4), pp.230-248.

  3. Cellier, F.E. (1994), Teaching Physical System Modeling at the University of Arizona, Simulation Practice and Theory, 1(4), pp.5-7.

  4. Cellier, F.E. (1995), Bond Graphs: The Right Choice for Educating Students in Modeling Continuous-Time Physical Systems, Simulation, 64(3), pp.154-159.

  5. Cellier, F.E., A. Nebot, and J. Greifeneder (2006), Bond Graph Modeling of Heat and Humidity Budgets of Biosphere 2, Environmental Modeling & Software, 21(11), pp.1598-1606.

  6. Nebot, A., F.E. Cellier, and F. Mugica (1999), Simulation of Heat and Humidity Budget of Biosphere 2 without Air Conditioning, Ecological Engineering, 13, pp. 333-356.

  7. Otter, M., H. Elmqvist, and F.E. Cellier (1996), Modeling of Multibody Systems with the Object-Oriented Modeling Language Dymola, J. Nonlinear Dynamics, 9(1), pp.91-112.

  8. Zimmer, D. and F.E. Cellier (2007), The Modelica Multi-bond Graph Library, Simulation News Europe, 17(3/4), pp.5-13.

Keynote Addresses

  1. Cellier, F.E. (1990), Hierarchical Non-linear Bond Graphs: A Unified Methodology for Modeling Complex Physical Systems, Proc. SCS European Simulation MultiConference, Nürnberg, Germany, pp.1-13.

  2. Cellier, F.E. (2009), Object-oriented Modeling of Mechatronics Systems in Modelica Using Wrapped Bond Graphs, Proc. IEEE Intl. Conference on Mechatronics, Malaga, Spain.

  3. Cellier, F.E. (2013), Teaching Physics by Modeling, Proc. MPTL 2013, 18th International Workshop on Multimedia in Physics Teaching and Learning, Madrid, Spain, September 11-13, 2013.

  4. Cellier, F.E., C. Clauß and A. Urquía (2007), Electronic Circuit Modeling and Simulation in Modelica, Proc. 6th Eurosim Congress on Modelling and Simulation, Ljubljana, Slovenia, Vol.2, pp. 1-10.

  5. Cellier, F.E. and A. Nebot (2005), Object-oriented Modeling in the Service of Medicine, Proc. 6th Asia Simulation Conference, Beijing, China, Vol.1, pp. 33-40.

  6. Cellier, F.E. and D. Zimmer (2006), Wrapping Multi-bond Graphs: A Structured Approach to Modeling Complex Multi-body Dynamics, Proc. 20th European Conference on Modeling and Simulation, Bonn, Germany, pp. 7-13.

Contributed Conference Papers

  1. Andres, M., D. Zimmer, and F.E. Cellier (2009), Object-Oriented Decomposition of Tire Characteristics Based on Semi-empirical Models, Proc. 7th International Modelica Conference, Como, Italy, pp. 9-18.

  2. Borutzky, W. and F.E. Cellier (1996), Tearing in Bond Graphs With Dependent Storage Elements, Proc. Symposium on Modelling, Analysis, and Simulation, CESA´96, IMACS MultiConference on Computational Engineering in Systems Applications, Lille, France, vol.2, pp. 1113-1119.

  3. Brooks, B.A., and F.E. Cellier (1993), Modeling of a Distillation Column Using Bond Graphs, Proc. ICBGM´93, 1st SCS Intl. Conf. on Bond Graph Modeling and Simulation, San Diego, CA, pp. 315-320.

  4. Castro, R., F.E. Cellier, and A. Fischlin (2013), Eco-bond Graphs: An Energy-based Modeling Framework for Complex Dynamic Systems with a Focus on Sustainability and Embodied Energy Flows, Proc. SESDE 2013, International Workshop on Simulation for Energy, Sustainable Development, and Environment, Athens, Greece, September 25-27, 2013, pp. 33-45. ( Best Paper Award)

  5. Cellier, F.E. (1992), Bond Graphs - The Right Choice for Educating Students in Modeling Continuous-Time Physical Systems, Proc. ICSEE´92, SCS Intl. Conf. on Simulation in Engineering Education, Newport Beach, CA, pp. 123-127.

  6. Cellier, F.E. (1997), World Wide Web - The Global Library: A Compendium of Knowledge About Bond Graph Research, Proc. ICBGM´97, 3rd SCS Intl. Conf. on Bond Graph Modeling and Simulation, Phoenix, AZ, pp. 187-191.

  7. Cellier, F.E. and J. Greifeneder (2003), Object-oriented Modeling of Convective Flows Using the Dymola Thermo-bond-graph Library, Proc. ICBGM´03, 6th SCS Intl. Conf. on Bond Graph Modeling and Simulation, Orlando, Florida, pp. 198-204.

  8. Cellier, F.E. and J. Greifeneder (2008), ThermoBondLib - A New Modelica Library for Modeling Convective Flows, Proc. 6th International Modelica Conference, Bielefeld, Germany, Vol.1, pp. 163-172.

  9. Cellier, F.E. and J. Greifeneder (2009), Modeling Chemical Reactions in Modelica By Use of Chemo-bonds, Proc. 7th International Modelica Conference, Como, Italy, pp. 142-150.

  10. Cellier, F.E. and M. Krebs (2007), Analysis and Simulation of Variable Structure Systems Using Bond Graphs and Inline Integration, Proc. ICBGM´07, 8th SCS Intl. Conf. on Bond Graph Modeling and Simulation, San Diego, California, pp. 29-34.

  11. Cellier, F.E. and R.T. McBride (2003), Object-oriented Modeling of Complex Physical Systems Using the Dymola Bond-graph Library, Proc. ICBGM´03, 6th SCS Intl. Conf. on Bond Graph Modeling and Simulation, Orlando, Florida, pp. 157-162.

  12. Cellier, F.E. and A. Nebot (2005), The Modelica Bond Graph Library, Proc. 4th International Modelica Conference, Hamburg, Germany, Vol.1, pp. 57-65. (Best Library Award)

  13. Cellier, F.E., A. Nebot, and J. Greifeneder (2005), Object-oriented Modeling of Heat and Humidity Budgets of Biosphere 2 Using Bond Graphs, Proc. 19th International Conference on Informatics for Environmental Protection, Brno, Czech Republic, Vol.2, pp. 651-660.

  14. Cellier, F.E., M. Otter, and H. Elmqvist (1995), Bond Graph Modeling of Variable Structure Systems, Proc. ICBGM´95, 2nd SCS Intl. Conf. on Bond Graph Modeling and Simulation, Las Vegas, NV, pp. 49-55.

  15. de la Calle, A., F.E. Cellier, L.J. Yebro, and S. Dormido (2013), Improvements in Bondlib, the Modelica Bond Graph Library, Proc. 8th EUROSIM Congress on Modeling and Simulation, Cardiff, Wales, United Kingdom, September 10-12, 2013.

  16. Greifeneder, J. and F.E. Cellier (2001), Modeling Convective Flows Using Bond Graphs, Proc. ICBGM´01, 5th SCS Intl. Conf. on Bond Graph Modeling and Simulation, Phoenix, Arizona, pp. 276-284.

  17. Greifeneder, J. and F.E. Cellier (2001), Modeling Multi-Phase Systems Using Bond Graphs, Proc. ICBGM´01, 5th SCS Intl. Conf. on Bond Graph Modeling and Simulation, Phoenix, Arizona, pp. 285-291.

  18. Greifeneder, J. and F.E. Cellier (2001), Modeling Multi-element Systems Using Bond Graphs, Proc. ESS´01, 13th European Simulation Symposium, Marseille, France, pp. 758-766.

  19. Greifeneder, J. and F.E. Cellier (2012), Modeling Chemical Reactions Using Bond Graphs, Proc. ICBGM´12, 10th SCS Intl. Conf. on Bond Graph Modeling and Simulation, Genoa, Italy, pp. 110-121.

  20. Gussn, N.M.N., and F.E. Cellier (1995), On the Extension of the Bondgraphic Power Postulate to Some Relativistic Phenomena, Proc. ICBGM´95, 2nd SCS Intl. Conf. on Bond Graph Modeling and Simulation, Las Vegas, NV, pp. 35-40.

  21. McBride, R.T. and F.E. Cellier (2001), A Bond-graph Representation of a Two-gimbal Gyroscope, Proc. ICBGM´01, 5th SCS Intl. Conf. on Bond Graph Modeling and Simulation, Phoenix, Arizona, pp. 305-312.

  22. McBride, R.T. and F.E. Cellier (2003), Object-oriented Bond Graph Modeling of a Gyroscopically Stabilized Camera Platform, Proc. ICBGM´03, 6th SCS Intl. Conf. on Bond Graph Modeling and Simulation, Orlando, Florida, pp. 223-230.

  23. McBride, R.T. and F.E. Cellier (2005), System Efficiency Measurement Through Bond Graph Modeling, Proc. ICBGM´05, 7th SCS Intl. Conf. on Bond Graph Modeling and Simulation, New Orleans, Louisiana, pp. 221-227.

  24. McBride, R.T. and F.E. Cellier (2005), Optimal Control Gain Selection Using the Power Flow Information of Bond Graph Modeling, Proc. ICBGM´05, 7th SCS Intl. Conf. on Bond Graph Modeling and Simulation, New Orleans, Louisiana, pp. 228-232.

  25. Nebot, A., F.E. Cellier, and F. Mugica (1996), Modeling the Thermal Behavior of Biosphere 2 in a Non-Controlled Environment Using Bond Graphs, Proc. AIS´96, Artificial Intelligence, Simulation, and Planning in High Autonomy Systems, San Diego, California, pp. 189-196.

  26. Otter, M., H. Elmqvist, and F.E. Cellier (1993), Modeling of Multibody Systems With the Object-Oriented Modeling Language Dymola, Proc. NATO/ASI, Computer-Aided Analysis of Rigid and Flexible Mechanical Systems, Troia, Portugal, vol.2, pp. 91-110.

  27. Schmitt, T., D. Zimmer, and F.E. Cellier (2009), A Virtual Motorcycle Rider Based on Automatic Controller Design, Proc. 7th International Modelica Conference, Como, Italy, pp. 19-28.

  28. Schweisguth, M.C., and F.E. Cellier (1999), A Bond Graph Model of the Bipolar Junction Transistor, Proc. ICBGM´99, 4th SCS Intl. Conf. on Bond Graph Modeling and Simulation, San Francisco, CA, pp. 344-349.

  29. Weiner, M., and F.E. Cellier (1993), Modeling and Simulation of a Solar Energy System by Use of Bond Graphs, Proc. 1st SCS Intl. Conf. on Bond Graph Modeling and Simulation, San Diego, CA, pp. 301-306.

  30. Zimmer, D. and F.E. Cellier (2006), The Modelica Multi-bond Graph Library, Proc. 5th International Modelica Conference, Vienna, Austria, Vol.2, pp. 559-568.

  31. Zimmer, D. and F.E. Cellier (2007), Impulse-bond Graphs, Proc. ICBGM´07, 8th SCS Intl. Conf. on Bond Graph Modeling and Simulation, San Diego, California, pp. 3-11.


Ph.D. Dissertations

  1. McBride, R.T. (2005), System Analysis Through Bond Graph Modeling, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

MS Theses

  1. Amrhein, M. (1990), Bond Graph Modeling of Chemical Reaction Dynamics, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

  2. Andreou, S. (1990), Simulation of a Solar Heated House Using the Bond Graph Modeling Approach and the Dymola Modeling Software, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

  3. Andres, M. (2009), Object-Oriented Modeling of Wheels and Tires in Dymola/Modelica, Mechatronik Programm, FH Vorarlberg, Dornbirn, Austria.

  4. Brooks, B.A. (1992), Modeling of a Distillation Column Using Bond Graphs, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

  5. Dalitz, F. (2009), Modeling of a Batch Process with Bond Graphs in Dymola, Dynamik und Betrieb technischer Anlagen, Technical University of Berlin, Berlin, Germany.

  6. Greifeneder, J. (2001), Modellierung thermodynamischer Phänomene mittels Bondgraphen, Institut für Systemdynamik und Regelungstechnik, Universität Stuttgart, Stuttgart, Germany.

  7. Gussn, N.M.N. (1994), On the Bondgraphic Power Postulate and its Role in Interpreting the 1905 and 1915 Relativity Theories, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

  8. Krebs, M. (1997), Modeling of Conditional Index Changes, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

  9. Miersch, J. (1996), Bond Graphs in Modeling Plant Water Dynamics, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

  10. Piram, U. (1991), Numerical Investigation of Second Sound in Liquid Helium, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

  11. Schmitt, T. (2009), Modeling of a Motorcycle in Dymola/Modelica, Mechatronik Programm, FH Vorarlberg, Dornbirn, Austria.

  12. Schöckle, M. (1992), Reimplementation of MMS in Dymola Using Bond Graphs, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

  13. Schröder, P. (1995), Object-Oriented Modeling of Multibody Systems with a Symbolic Language and Simulation of a Jeep, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

  14. Schweisguth, M. C. (1997), Semiconductor Modeling with Bondgraphs, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

  15. Shiva, A. (2004), Modeling Switching Networks Using Bond Graph Technique, Dept. of Aerospace & Mechanical Engr., University of Arizona, Tucson, AZ.

  16. Weiner, M. (1992), Bond Graph Model of a Passive Solar Heating System, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

  17. Zimmer, D. (2006), A Modelica Library for MultiBond Graphs and its Application in 3D-Mechanics, Dept. für Computational Science, ETH Zürich, Zürich, Schweiz.

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Last modified: October 16, 2013 -- © François Cellier