This chapter makes an attempt to address three critical issues that, from a computational intelligence perspective, will arise when computational stock market model (CSMM) based complex adaptive cyber physical logistics system (CACPLS) is implemented in the future supply network. The chapter starts with an introduction and background description about the necessity of introducing the CSMM-based CACPLS; then the focal problems (i.e., developing investment strategy, predicting stock price, and controlling extreme events) of this chapter is stated in the problem statement section; a detailed description about our approaches, i.e., training artificial neural network via particle swarm optimization, genetic algorithm for stock price forecasting, and agent-based modeling and simulation for preventing extreme events, together with three example studies can be found in the subsequent proposed methodology sections; right after this, the potential research directions regarding the key problems considered in this chapter are highlighted in the future trends section; finally, the conclusions drawn at the last section closes this chapter. © 2014 Springer Science+Business Media Singapore.
CITATION STYLE
Xing, B. (2014). The optimization of computational stock market model based complex adaptive cyber physical logistics system: A computational intelligence perspective. Studies in Computational Intelligence, 540, 357–380. https://doi.org/10.1007/978-981-4585-36-1_12
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