| 1. | Differential game controllers design using neural networks
基于神经网络的微分对策控制器设计 |
| 2. | Duopoly investment differential game simulation based on system dynamics
基于系统动力学的两厂商投资微分博弈模拟 |
| 3. | Dynamic cooperative advertising strategies based on differential games in a supply chain
基于微分对策的供应链合作广告决策研究 |
| 4. | Design of optimal observer and optimal feedback controller based on differential game theory
基于微分对策的最优状态观测器和最优状态反馈控制器的设计 |
| 5. | A simulation for 2 : 2 differential games is made , and its result illustrates the feasibility of the solution scheme
对一个2 : 2对策问题做了仿真,其效果说明了解决问题方法的可行性。 |
| 6. | The system dynamics is used to make the simulation about the differential game under the condition of complete information and incomplete information
摘要以系统动力学为工具,通过模拟的方法求解完全信息和不完全信息情况下微分博弈的均衡策略。 |
| 7. | Subsequently , the design method of controller is investigated , which corresponds to the eclectic solution to the system of fuzzy linear cooperative differential game
进一步探讨了在模糊线性协商微分对策系统下相应于折中解的控制器的设计方法。 |
| 8. | With the development of artificial intelligence , many recent studies have been devoted to combining intelligent control with differential game theory
近年来,随着人工智能的兴起,国内外许多学者致力于将智能控制理论引入微分对策理论的研究中。 |
| 9. | This paper proposes a two - player , finite - horizon differential game model to analyzejoint implementation in environmental projects , one of the flexible mechanisms considered in the kyoto protocol
摘要提出了一个两人有限微分对策模型用以分析在环境工程项目中的联合行动,其灵活机制之一已在京都议定书中得到了考虑。 |
| 10. | As a main tool to deal with pursuit - evasion games , the differential game theory has developed very well for fifty years . however , it is difficult to apply the results in real air games
微分对策作为解决追逃动态对策问题主要工具已经经历了近50年的发展,就其本身而言已经发展的相当成熟,但距实际应用还有一段距离。 |
