Discrete event simulation of large-scale spatial continuous systems

Author

Muzy, Alexandre ; Aïello, Antoine ; Santoni, Paul-Antoine ; Zeigler, Bernard P. ; Nutaro, James J. ; Jammalamadaka, Rajanikanth

Author_Institution

Corsica Univ., Corti, France

Volume

4

fYear

2005

fDate

10-12 Oct. 2005

Firstpage

2991

Abstract

Complex spatially-extended systems consist of numerous sub-systems leading to large simulation execution times. One approach to reducing these execution times is designing a simulation engine to allocate its attention to subsystems in proportion to their activity levels. In this paper, we consider a large scale simulation of a physics-based fire spread model. This model is discretized using a recently developed numerical method called quantization and implemented using discrete event simulation. In this paper, we provide comparisons between the quantization method and usual Euler discrete-time methods. The aim is to demonstrate the ability of quantization and discrete event simulation to focus on active sub-systems, thus significantly reducing execution time for large heterogeneous systems.

Keywords

discrete event simulation; large-scale systems; Euler discrete time method; discrete event simulation; fire spread simulation; large heterogeneous system; large scale system; quantization method; spatial continuous system; Analytical models; Computational modeling; Continuous time systems; Discrete event simulation; Engines; Fires; Jamming; Large-scale systems; Quantization; Quantum computing; DEVS; fire spread simulation; large-scale spatial continuous systems; quantization;

fLanguage

English

Publisher

ieee

Conference_Titel

Systems, Man and Cybernetics, 2005 IEEE International Conference on

Print_ISBN

0-7803-9298-1

Type

conf

DOI

10.1109/ICSMC.2005.1571605

Filename

1571605