PDF version - Department of Computer Science - ETH Zürich
PDF version - Department of Computer Science - ETH Zürich PDF version - Department of Computer Science - ETH Zürich
Applications, (S.G. Tzafestas, ed.), Netherlands, pp. 3-22. Kluwer Academic Publishers, Dordrecht, 16. Cellier, F.E. (1991), “General System Problem Solving Paradigm for Qualitative Modeling,” Qualitative Simulation, Modeling, and Analysis, (P.A. Fishwick and P.A. Luker, eds.), Springer-Verlag, New York, pp. 51-71. 17. Cellier, F.E. (1990), “Rechnerunterstützter Entwurf von Regelungssystemen – Verfahren und Werkzeuge,” Simulation in der Regelungstechnik, (K.H. Fasol, ed.), Springer-Verlag, Berlin, pp. 57-73. 18. Cellier, F.E. (1987), “Ordinary Differential Equation Models: Numerical Integration of Initial Value Problems,” Encyclopedia of Control, (M. Singh, ed., topic: Simulation, B.P. Zeigler, topic-ed.), Pergamon Press, Oxford, Vol. 5, pp. 3555-3559. 19. Cellier, F.E. (1987), “Simulation Modeling Formalism: Ordinary Differential Equations,” Encyclopedia of Control, (M. Singh, ed., topic: Simulation, B.P. Zeigler, topic-ed.), Pergamon Press, Oxford, Vol. 6, pp. 4356-4360. 20. Cellier, F.E. and C.M. Rimvall (1987), “Computer-Aided Control System Design: Techniques and Tools,” Systems Modeling and Computer Simulation, (N. Kheir, ed.), Marcel Dekker, New York, pp. 631-679. 21. Cellier, F.E. (1985), “Stiff Computation: Where to Go?” Progress in Stiff Computation, (R.C. Aiken, ed.), Oxford Academic Press, Oxford, pp. 386-392. 22. Rimvall, C.M. and F.E. Cellier (1985), “A Structural Approach to CACSD,” Computer-Aided Control Systems Engineering, (M. Jamshidi and C.J. Herget, eds.), North-Holland Publishing, Amsterdam, pp. 149-158. 23. Cellier, F.E. (1984), “How to Enhance the Robustness of Simulation Software,” Simulation and Model-Based Methodologies: An Integrative View, (T.I. Ören, M.S. Elzas, and B.P. Zeigler, eds.), Springer-Verlag, New York, pp. 519-536. 24. Cellier, F.E. and A. Fischlin (1982), “Computer-Assisted Modeling of Ill-Defined Systems,” Progress in Cybernetics and Systems Research – Vol. 8: General Systems Methodology, Mathematical Systems Theory, Fuzzy Sets, (R. Trappl, G.J. Klir, and F.R. Pichler, eds.), Hemisphere Publishing, McGraw-Hill, Washington, pp. 417-429. 25. Cellier, F.E. (1979), “Combined Continuous Discrete System Simulation Languages - Usefulness, Experiences, and Future Development,” Methodology in Systems Modeling and Simulation, (B.P. Zeigler, M.S. Elzas, G.J. Klir, and T.I. Oren, eds.), North-Holland Publishing, Amsterdam, pp. 201-220. Refereed Journals:
1. Migoni, G., E. Kofman, and F.E. Cellier (2012), “Quantization-based New Integration Methods for Stiff ODEs,” Simulation, 88(4), pp. 387-407. 2. Sanz, V., A. Urquía, F.E. Cellier, and S. Dormido (2012), “Modeling of Hybrid Control Systems Using the DEVSLib Modelica Library,” Control Engineering Practice, 20(1), pp. 24-34. 3. Cellier, F.E. (2011), “The Future of Energy and the Interconnected Challenges of the 21 st Century,” Cassandra’s Legacy, October 30, 2011, http://cassandralegacy.blogspot.com/2011/10/future-of-energy-and-interconnected.html. 4. Escobet, A., À. Nebot, and F.E. Cellier (2011), “Fault Diagnosis System Based on Fuzzy Logic: Application to a Valve Actuator Benchmark,” J. Intelligent Fuzzy Systems, 22(4), pp. 155-171. 5. López, J., F.E. Cellier, and G. Cembrano (2011), “Estimating the Horizon of Predictability in Time Series Predictions Using Inductive Modeling Tools,” Intl. J. General Systems, 40(3), pp. 263-282. 6. Castro, R., E. Kofman, and F.E. Cellier (2011), “Quantization-based Integration Methods for Delay-differential Equations,” Simulation Modeling Practice and Theory, 19(1), pp. 314-336. 7. Cellier, F.E., J. López, A.Nebot and G. Cembrano (2010), “Confidence Measures for Predictions in Fuzzy Inductive Reasoning,” Intl. J. General Systems, 39(8), pp. 839-853. 8. 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. 9. Nebot, A., F.E. Cellier, R. Carvajal, and F. Mugica (2009), “Fuzzy Inductive Reasoning for Variable Selection Analysis and Modelling of Biological Systems,” Intl. J. General Systems, 38(8), pp. 793-811. 10. Cellier, F.E. (2009), “Is the 2000 Watt Society Sustainable in Switzerland?” The Oil Drum, April 20, 2009, http://www.theoildrum.com/node/5316/. 11. Cellier, F.E. (2008), “Energy Strategy for ETH Zurich: A Critical Review,” The Oil Drum, April 23, 2008, http://www.theoildrum.com/node/3871/. 12. Escobet, A., A. Nebot, and F.E. Cellier (2008), “Visual-FIR: A Tool for Model Identification and Prediction of Dynamical Complex Systems,” Simulation Modeling Practice and Theory, 16(1), pp. 76-92. 13. Zimmer, D. and F.E. Cellier (2007), “The Modelica Multi-bond Graph Library,”
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1. Migoni, G., E. K<strong>of</strong>man, and F.E. Cellier (2012), “Quantization-based New Integration<br />
Methods for Stiff ODEs,” Simulation, 88(4), pp. 387-407.<br />
2. Sanz, V., A. Urquía, F.E. Cellier, and S. Dormido (2012), “Modeling <strong>of</strong> Hybrid Control<br />
Systems Using the DEVSLib Modelica Library,” Control Engineering Practice, 20(1),<br />
pp. 24-34.<br />
3. Cellier, F.E. (2011), “The Future <strong>of</strong> Energy and the Interconnected Challenges<br />
<strong>of</strong> the 21 st Century,” Cassandra’s Legacy, October 30, 2011,<br />
http://cassandralegacy.blogspot.com/2011/10/future-<strong>of</strong>-energy-and-interconnected.html.<br />
4. Escobet, A., À. Nebot, and F.E. Cellier (2011), “Fault Diagnosis System Based on Fuzzy<br />
Logic: Application to a Valve Actuator Benchmark,” J. Intelligent Fuzzy Systems, 22(4),<br />
pp. 155-171.<br />
5. López, J., F.E. Cellier, and G. Cembrano (2011), “Estimating the Horizon <strong>of</strong><br />
Predictability in Time Series Predictions Using Inductive Modeling Tools,” Intl. J.<br />
General Systems, 40(3), pp. 263-282.<br />
6. Castro, R., E. K<strong>of</strong>man, and F.E. Cellier (2011), “Quantization-based Integration Methods<br />
for Delay-differential Equations,” Simulation Modeling Practice and Theory, 19(1), pp.<br />
314-336.<br />
7. Cellier, F.E., J. López, A.Nebot and G. Cembrano (2010), “Confidence Measures for<br />
Predictions in Fuzzy Inductive Reasoning,” Intl. J. General Systems, 39(8), pp. 839-853.<br />
8. Sanz, V., A. Urquía, F.E. Cellier, and S. Dormido (2010), “System Modeling Using the<br />
Parallel DEVS Formalism and the Modelica Language,” Simulation Modeling Practice<br />
and Theory, 18(7), pp. 998-1018.<br />
9. Nebot, A., F.E. Cellier, R. Carvajal, and F. Mugica (2009), “Fuzzy Inductive Reasoning<br />
for Variable Selection Analysis and Modelling <strong>of</strong> Biological Systems,” Intl. J. General<br />
Systems, 38(8), pp. 793-811.<br />
10. Cellier, F.E. (2009), “Is the 2000 Watt Society Sustainable in Switzerland?” The Oil<br />
Drum, April 20, 2009, http://www.theoildrum.com/node/5316/.<br />
11. Cellier, F.E. (2008), “Energy Strategy for <strong>ETH</strong> Zurich: A Critical Review,” The Oil<br />
Drum, April 23, 2008, http://www.theoildrum.com/node/3871/.<br />
12. Escobet, A., A. Nebot, and F.E. Cellier (2008), “Visual-FIR: A Tool for Model<br />
Identification and Prediction <strong>of</strong> Dynamical Complex Systems,” Simulation Modeling<br />
Practice and Theory, 16(1), pp. 76-92.<br />
13. Zimmer, D. and F.E. Cellier (2007), “The Modelica Multi-bond Graph Library,”
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