References
- Barros, F. (1998). Hierarchical testing of dynamic structure models: A practical approach. Transactions of the Society for Computer Simulation, 15(4), 181–189.
- Barros, F. (2000). A framework for representing numerical multirate integration methods. AI, Simulation, and Planning in High Autonomy Systems, 149–154.
- Barros, F. (2016). On the representation of time in modeling & simulation. In Winter Simulation Conference, Arlington, Virginia, USA.
- Berry, G., & Sentovich, E. (2001). Multiclock Esterel. Correct Hardware Design and Verification Methods, 2144, 110–125.
- Cota, B., & Sargent, R. (1992). A modification of the process interaction world view. ACM Transactions on Modeling and Computer Simulation, 2(2), 109–129. https://doi.org/10.1145/137926.137927
- Cox, S. M., & Matthews, P. C. (2002). Exponential time differencing for stiff systems. Journal of Computational Physics, 176(2), 430–455. https://doi.org/10.1006/jcph.2002.6995
- Dahl, O.-J., Myhrhaug, B., & Nygaard, K. (1966). SIMULA - An ALGOL-based simulation language. Communications of the ACM, 9(9), 671–678. https://doi.org/10.1145/365813.365819
- David, R., & Alia, H. (2005). Discrete, continuous, and hybrid petri nets. Springer.
- Elmqvist, H., Mattsson, S. E., & Otter, M. (2001). Object-oriented and hybrid modeling in modelica. Journal Européen des Systèmes Automatisés, 35(1). https://elib.dlr.de/11522/1/otter2001-jesa35-modelica-hybrid.pdf
- Fritzson, P. (2003). Principles of object-oriented modeling and simulation with Modelica 2.1. Wiley.
- Gordon, G. (1978). System simulation (2nd ed.). Prentice-Hall.
- Hairer, E., Lubich, C., & Wanner, G. (2005). Geometrical numerical integration: Structure- preserving algorithms for ordinary differential equations (2nd ed. ed.). No. 31. Springer- Verlag.
- Henriksen, J. (1981). GPSS: Finding the appropriate world-view. In Winter Simulation Conference, Atlanta, Georgia, USA (pp. 505–516).
- Krahl, D. (1999). Modeling with Extend. In Winter simulation conference, Phoenix, Arizona, USA (pp. 188–195).
- Kuhl, F., Weatherly, R., & Dahmann, J. (2000). Creating computer simulation systems: An introduction to the high level architecture. Prentice Hall.
- Lee, E. (2006). The problem with threads. Computer, 39(5), 33–42. https://doi.org/10.1109/MC.2006.180
- Modelica. (2022). Modelica- A Unified Object-Oriented Language for Systems Modeling: Language Specification, Version 3.6. Retrieved from https://www.modelica.org
- Paredis, R., Mierlo, S., & Vangheluwe, H. (2020). Translating process interaction world view models to DEVS: GPSS to (Python(p))devs. In Winter Simulation Conference (pp. 2221–2232). Virtual Conference.
- Pegden, C., & Pritsker, A. (1979). SLAM: Simulation language for alternative modeling. SIMULATION, 1(2), 113–153.
- Peterson, J. (1981). Petri net theory and the modeling of systems. Prentice Hall.
- Pidd, M. (2006). Computer simulation in management science. Wiley.
- Praehofer, H. (1991). Systems theoretic formalisms for combined discrete-continuous system simulation. International Journal of General Systems, 19(3), 219–240. https://doi.org/10.1080/03081079108935175
- Russel, E. (1999). Building simulation models with simscript II.5. CACI, La Jolla.
- Schruben, L. (1983). Simulation modeling with event graphs. Communications of the ACM, 26(11), 957–963. https://doi.org/10.1145/182.358460
- Zeigler, B. (1976). Theory of modelling and simulation. Wiley.