F.E.Cellier - Veröffentlichungen betreffend object-orientierte Modellierung

Bücher

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

  2. Cellier, F.E., D. Broman, P. Fritzson, and E. Lee (2011), EOOLT'2011, Proc. 4th Intl. Workshop on Equation-based Object-oriented Modeling Languages and Tools, Zurich, Switzerland, September 5, 2011, ISSN: 1650-3686, 120 p.

  3. Fritzson, P., F.E. Cellier, and D. Broman, Eds. (2008), EOOLT'2008, Proc. 2nd Intl. Workshop on Equation-based Object-oriented Languages and Tools, Paphos, Cyprus, July 8, 2008, ISSN: 1650-3686, 140 p.

  4. Fritzson, P., F.E. Cellier, C. Nytsch-Geusen, D. Broman, and M. Cebulla, Eds. (2007), EOOLT'2007, Proc. 1st Intl. Workshop on Equation-based Object-oriented Languages and Tools, Berlin, Germany, July 30, 2007, Technische Universität Berlin, Forschungsberichte der Fakultät IV - Elektrotechnik und Informatik, Vol. 2007-11, ISSN: 1436-9915, 163 p.

  5. Fritzson, P., E. Lee, F.E. Cellier, and D. Broman, Eds. (2010), EOOLT'2010, Proc. 3rd Intl. Workshop on Equation-based Object-oriented Modeling Languages and Tools, Oslo, Norway, October 3, 2010, ISSN: 1650-3686, 120 p.

Kapitel in Büchern

  1. Cellier, F.E. (1993), Integrated Continuous-System Modeling and Simulation Environments, CAD for Control Systems (D. Linkens, ed.), Marcel Dekker, New York, pp.1-29.

  2. 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.

  3. 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.

  4. Fritzson, P., D. Broman, F.E. Cellier, and C. Nytsch-Geusen (2008), Equation-based Object-oriented Languages and Tools: Report on the Workshop EOOLT'2007 at ECOOP'2007, Object-oriented Technology: ECOOP'2007 Workshop Reader, (M. Cebulla, ed.), Lecture Notes in Computer Science, Vol. 4906, Springer-Verlag, Berlin, pp. 27-39.

  5. Fritzson, P., E.A. Lee, F.E. Cellier, and D. Broman (2011), Equation-based Object-oriented Modeling Languages and Tools: Report on the Workshop EOOLT'2010 at MODELS'2010, Springer-Verlag, Berlin, pp. 140-144.

  6. Otter, M., and F.E. Cellier (1995), Software for Modeling and Simulating Control Systems, The Control Handbook (W.S. Levine, ed.), CRC Press, Boca Raton, FL, pp.415-428.

  7. Otter, M., and F.E. Cellier (2000), Software for Modeling and Simulating Control Systems, Control System Fundamentals (W.S. Levine, ed.), CRC Press, Boca Raton, FL, pp.419-432.

Zeitschriftenartikel

  1. Cellier, F.E., and H. Elmqvist (1993), Automated Formula Manipulation Supports Object-Oriented Continuous-System Modeling, IEEE Control Systems, 13(2), pp.28-38.

  2. 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.

  3. Sanz, V., A. Urquía, F.E. Cellier, and S. Dormido (2010), System Modeling Using the Parallel DEVS Formalism and the Modelica Language, Simulation Modeling Practice and Theory, 18(7), pp.998-1018.

  4. Wang, Q., and F.E. Cellier (1991), Time Windows: An Approach to Automated Abstraction of Continuous-Time Models into Discrete-Event Models, Intl. J. General Systems, 19(3), pp.241-262.

Hauptvorträge bei Tagungen

  1. Cellier, F.E. (1996), Object-Oriented Modeling: Means for Dealing With System Complexity, Proc. 15th Benelux Meeting on Systems and Control, Mierlo, The Netherlands, pp.53-64.

  2. Cellier, F.E. (2000), Inlining Step-size Controlled Fully Implicit Runge-Kutta Algorithms for the Semi-analytical and Semi-numerical Solution of Stiff ODEs and DAEs, Proc. Vth Conference on Computer Simulation, Mexico City, Mexico, pp.259-262.

  3. Cellier, F.E., and H. Elmqvist (1992), The Need for Automated Formula Manipulation in Object-Oriented Continuous-System Modeling, Proc. CACSD'92, IEEE Computer-Aided Control System Design Conference, Napa, CA, pp.1-8.

  4. Cellier, F.E., X. Floros, and E. Kofman (2013), The Complexity Crisis: Using Modeling and Simulation for System Level Analysis and Design, Proc. SimulTech 2013, 3rd International Conference on Simulation and Modeling Methodologies, Technologies, and Applications, Reykjavik, Island, Juli 29-31, 2013.

  5. Cellier, F.E., B.P. Zeigler, and A.H.Cutler (1991), Object-Oriented Modeling: Tools and Techniques for Capturing Properties of Physical Systems in Computer Code, Proc. CADCS'91 - IFAC Symposium on Computer-Aided Design in Control Systems, Swansea, Wales, U.K., pp.1-10.

  6. Elmqvist, H., F.E. Cellier, and M. Otter (1993), Object-Oriented Modeling of Hybrid Systems, Proc. ESS'93, SCS European Simulation Symposium, Delft, The Netherlands, pp.xxxi-xli.

  7. Elmqvist, H., M. Otter, and F.E. Cellier (1995), Inline Integration: A New Mixed Symbolic/Numeric Approach for Solving Differential-Algebraic Equation Systems, Proc. ESM'95, SCS European Simulation MultiConference, Prague, Czech Republic, pp.xxiii-xxxiv.

  8. Otter, M., H. Elmqvist, and F.E. Cellier (1996), "Relaxing" - A Symbolic Sparse Matrix Method Exploiting the Model Structure in Generating Efficient Simulation Code, Proc. Symposium on Modelling, Analysis, and Simulation, CESA'96, IMACS MultiConference on Computational Engineering in Systems Applications, Lille, France, vol.1, pp.1-12.

Andere Tagungsbeiträge

  1. Bonilla, J., L.J. Yebra, S. Dormido, and F.E. Cellier (2012), Object-Oriented Modeling of Switching Moving Boundary Models for Two-phase Flow Evaporators, Proc. MathMod 2012 Conference, Vienna, Austria.

  2. Bonilla, J., L.J. Yebra, S. Dormido, and F.E. Cellier (2012), Object-Oriented Library of Switching Moving Boundary Models for Two-phase Flow Evaporators and Condensers, Proc. 9th International Modelica Conference, Fürstenfeldbruck, Germany, pp.71-80.

  3. Cellier, F.E. (1996), Object-Oriented Modeling: A Tool Supporting Flexible Automation, Proc. WAC'96, 2nd World Automation Congress, vol.4, Intelligent Automation and Control: Recent Trends in Development and Applications, Montpellier, France, pp.107-112.

  4. Cellier, F.E. (1996), Object-Oriented Modeling of Physical Systems: Promises and Expectations, Proc. Symposium on Modelling, Analysis, and Simulation, CESA'96, IMACS MultiConference on Computational Engineering in Systems Applications, Lille, France, vol.2, pp.1126-1127.

  5. Cellier, F.E., H. Elmqvist, M. Otter, and J.H. Taylor (1993), Guidelines for Modeling and Simulation of Hybrid Systems, Proc. IFAC World Congress, Sydney, Australia, vol.8, pp.391-397.

  6. Cellier, F.E. and V. Sanz (2009), Mixed Quantitative and Qualitative Simulation in Modelica, Proc. 7th International Modelica Conference, Como, Italy, 10 pgs.

  7. Cellier, F.E., Q. Wang, and B.P. Zeigler (1990), Model Management - A Five Level Hierarchy for the Management of Simulation Models, Proc. Winter Simulation Conference, New Orleans, LA, pp.55-64.

  8. de Albornoz, A., J. Sardá, and F.E. Cellier (1994), Structure Identification in Variable Structure Systems by Means of Qualitative Simulation, Proc. ESM'94, European Simulation MultiConference, Barcelona, Spain, pp.486-491.

  9. Elmqvist, H., F.E. Cellier, and M. Otter (1994), Object-Oriented Modeling of Power-Electronic Circuits Using Dymola, Proc. CISS'94, First Joint Conference of International Simulation Societies, Zurich, Switzerland, pp.156-161.

  10. Glaser, J.S., F.E. Cellier, and A.F. Witulski (1995), Object-Oriented Switching Power Converter Modeling Using Dymola With Event-Handling, Proc. OOS'95, SCS Object-Oriented Simulation Conference, Las Vegas, NV, pp.141-146.

  11. Glaser, J.S., F.E. Cellier, and A.F. Witulski (1995), Object-Oriented Power System Modeling Using the Dymola Modeling Language, Proc. Power Electronics Specialists Conference, Atlanta, GA, Vol.II, pp.837-843.

  12. Hild, D.R., and F.E. Cellier (1994), Object-Oriented Electronic Circuit Modeling Using Dymola, Proc. OOS'94, SCS Object Oriented Simulation Conference, Tempe, AZ, pp.68-75.

  13. Mugica, F., and F.E. Cellier (1994), Automated Synthesis of a Fuzzy Controller for a Cargo Ship Steering by Means of Qualitative Simulation, Proc. ESM'94, European Simulation MultiConference, Barcelona, Spain, pp.523-528.

  14. 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.

  15. Wang, Q., and F.E. Cellier (1990), Time Windows: An Approach to Automated Abstraction of Continuous-Time Models into Discrete-Event Models, Proc. IEEE Conf. AI, Simulation and Planning in High Autonomy Systems, Tucson, AZ, pp.204-211.

Dissertationen

  1. Zimmer, D. (2010), Equation-based Modeling of Variable-structure Systems, Dept. für Computer Science, ETH Zürich, Zürich, Schweiz.

MS Arbeiten

  1. Hild, D.R. (1993), Circuit Modeling in Dymola, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

  2. Idnani, S. (1991), An ACSL Interface for DYMOLA, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

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

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

  5. 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.

  6. Wang, Q. (1989), Management of Continuous System Models in DEVS-Scheme: Time Windows for Event-Based Control, Dept. of Electr. & Comp. Engr., University of Arizona, Tucson, AZ.

Interne Berichte

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Modifiziert: 15. Oktober 2013 -- © François Cellier