为了验证多机协同攻击原理,通过STAGE(Scenario Toolkit And Generation Environment,STAGE)软件进行多机协同攻击仿真实验。它提供了各种工具和框架产生定制的应用仿真程序,不仅缩短了构建复杂模拟所需的时间,而且还与所需的高保真度...为了验证多机协同攻击原理,通过STAGE(Scenario Toolkit And Generation Environment,STAGE)软件进行多机协同攻击仿真实验。它提供了各种工具和框架产生定制的应用仿真程序,不仅缩短了构建复杂模拟所需的时间,而且还与所需的高保真度模型相结合,完成了实验性战争的设计和开发。笔者以STAGE作为支撑平台,通过快速构建虚拟战场环境,最大限度地利用有效资源,缩短仿真系统的开发时间。展开更多
A definition of self-determined priority is used in airfight decision firstly. A scheme of grouping the whole fighters is introduced, and the principle of target assignment and fire control is designed. Based on the ...A definition of self-determined priority is used in airfight decision firstly. A scheme of grouping the whole fighters is introduced, and the principle of target assignment and fire control is designed. Based on the neutral network, the decision algorithm is derived and the whole coordinated decision system is simulated. Secondly an algorithm for missile-attacking area is described and its calculational result is obtained under initial conditions. Then the attacking of missile is realized by the proportion guidance. Finally, a multi-target attack system. The system includes airfight decision, estimation of missile attack area and calculation of missile attack procedure. A digital simulation demonstrates that the airfight decision algorithm is correct. The methods have important reference values for the study of fire control system of the fourth generation fighter.展开更多
文摘为了验证多机协同攻击原理,通过STAGE(Scenario Toolkit And Generation Environment,STAGE)软件进行多机协同攻击仿真实验。它提供了各种工具和框架产生定制的应用仿真程序,不仅缩短了构建复杂模拟所需的时间,而且还与所需的高保真度模型相结合,完成了实验性战争的设计和开发。笔者以STAGE作为支撑平台,通过快速构建虚拟战场环境,最大限度地利用有效资源,缩短仿真系统的开发时间。
文摘A definition of self-determined priority is used in airfight decision firstly. A scheme of grouping the whole fighters is introduced, and the principle of target assignment and fire control is designed. Based on the neutral network, the decision algorithm is derived and the whole coordinated decision system is simulated. Secondly an algorithm for missile-attacking area is described and its calculational result is obtained under initial conditions. Then the attacking of missile is realized by the proportion guidance. Finally, a multi-target attack system. The system includes airfight decision, estimation of missile attack area and calculation of missile attack procedure. A digital simulation demonstrates that the airfight decision algorithm is correct. The methods have important reference values for the study of fire control system of the fourth generation fighter.