Abstract
The research on complex systems is different from that on general systems because the former must consider self-organization, emergence, uncertainty, predetermination, and evolution. As an important method to transform the world, a simulation is one of the most important skills to discover complex systems. In this study, we provide a survey on complex systems and their simulation methods. Initially, the development history of complex system research is summarized from two main lines. Then, the eight common characteristics of the most complex systems are presented. Furthermore, the simulation methods of complex systems are introduced in detail from four aspects, namely, meta-synthesis methods, complex networks, intelligent technologies, and other methods. From the overall point of view, intelligent technologies are the driving force, and complex networks are the advanced structure. Meta-synthesis methods are the integration strategy, and other methods are the supplements. In addition, we show three complex system simulation examples: digital reactor simulation, simulation of a logistics system in the industrial site, and crowd evacuation simulation. The examples show that a simulation is a useful means and an important method in complex system research. Finally, the future development prospects for complex systems and their simulation methods are suggested.
Highlights
In 1999, a special issue on complex systems
This is a significant achievement as a new meta-synthesis for complex system research from the viewpoint of intelligent science
To be specific, refined intelligence examines basic scientific problems, including the paradigm of scientific data descriptions based on spatiotemporal characteristics and mathematical laws, reconstruction methods of mathematical systems based on coupling and decoupling methods of complex data systems, complexity classification of the intrinsic and dynamic features of complex systems, global structure analysis based on local morphological features, and system mutation based on the threshold analysis
Summary
In 1999, a special issue on complex systems Such a system is called an Open Complex Giant System (OCGS) or a complex system[2,3,4]. Complex System Modeling and Simulation, December 2021, 1(4): 271−290 research methods, which are necessary for the development of complex systems. From another point of view, the complex system is necessary for the current stage of development after the constant updating of simulation research.
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