我们描述了一系列的研究成果,其中为了支持嵌有指挥和控制的作战理论的研究已经开发出了一系列的模型。我们已经开发出的描述稳态方面作战性能的一组模型是以突变理论为基础的。在这些模型上加上背景的复杂性就可产生以其它方面的以突变理论、人口和系统动态学、细胞自动机和偏微分方程为基础的模型,这些模型考虑了作战性能变量是时间和空 间的函数。 其它的研究是使用分裂几何结构、皮特里网,Q分析及相对信息论去描述各方面作战环境的构造。在作战行为分析中的知觉作用也已经考虑,而且一个称作电子工作台的作战模型制作和分析设备也已经开发出来。 根据突变理论提供的框架我们已研究成功,该框架包括较广泛种类的损耗和浑沌动态系统。在我们的各项研究中我们已经得出的最重要的发现之一就是简化的作战模型可以产生精心制作的行为模式,而且这也包含了C~2在这种环境中正在起的或应当起的作用。 We describe a series of research results in which a series of models have been developed to support the study of operational theory embedded with command and control. A set of models we have developed that describe steady-state combat performance is based on catastrophe theory. Adding background complexity to these models leads to other models based on catastrophe theory, population and system dynamics, cellular automata, and partial differential equations, which take into account that combat performance variables are time and space The function. Other research uses split geometry, Petri net, Q analysis and relative information theory to describe the construction of various aspects of the operational environment. The perceptual role of war behavior analysis has also been taken into consideration, and a war model creation and analysis facility called an electronic workbench has also been developed. We have studied success with the framework provided by catastrophe theory, which includes a wider variety of loss and chaotic dynamics. One of the most important findings we have reached in our various studies is that simplified operational models can lead to elaborate behavioral patterns that also include what C 2 is or should be in this environment Role.