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出 处:《系统仿真学报》2008年第18期5049-5051,共3页Journal of System Simulation
摘 要:针对超空泡水下航行器的工作机理以及超空泡形成难度及复杂性的问题,首次开发出超空泡水下航行器的弹道可视化仿真系统。设计了超空泡水下航行器视景仿真系统的框架结构;利用VegaPrime和C++仿真应用程序建立了天空、海面、海底环境;研究了超空泡形成的工作机理,建立了超空泡的三维实体模型;实现了超空泡水下航行器发射、运行、助推发动机脱离、超空泡形成以及攻击等功能,形象逼真地模拟了超空泡水下航行器的运行过程。所建三维模型逼真度高、特效设计形象、可视化效果良好,使得科研人员在超空泡水下航行器的研究过程中,能够获得直观、清晰的认识,满足了超空泡水下航行器研究的要求。Aiming at the difficult questions that working principle of super-cavit underwater vehicles and the formation of super-cavity are very complex, super-cavit under vehicles ballistic visual simulation system was firstly developed. The framework structures of this kind of underwater vehicles visual simulation system were designed. The simulation environments including sky, surface and underwater were established by making use of the Vega Prime and the C++. After investigation on the working principle of super-cavit underwater vehicles, the 3D the super-cavity model was devised some main visualization functions were realized, such as the launching, navigating, disengaging the auxiliary engine, forming of the super-cavity, and attacking process. etc. The navigation processes of the super-cavit underwater vehicles were perfectly simulated The simulation result shows that the models fidelity, the specific effect, and the visualization impression effectively reflect the real process. Engineers and scholars can achieve intuitionistic and clear cognition during the research process of super-cavit under vehicles. The work satisfies requirements for investigation on super-cavit underwater vehicles.
分 类 号:TP391.9[自动化与计算机技术—计算机应用技术]
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