摘要
仿真框架的制定可有效提高仿真系统开发效率和水平,提高资源的可重用性和系统的自适应更改能力。确定了舰艇综合防空反导作战仿真研究的体系边界,从战术和技术两个层面提出了舰艇综合防空反导作战仿真框架。对战术仿真框架结构及各模块功能进行了阐述;基于模型驱动架构(MDA)及组件技术的理论和方法,建立了可灵活重组的技术框架。该框架为舰艇防空反导仿真提供了较为全面、可行的技术实现方法,且具有较强的通用性。实际应用表明,在该框架的指导下,仿真系统开发过程规范、简单,仿真资源可重用性强,仿真系统可扩展性强。
The establishment for simulation framework can effectively improve the efficiency and level of simulation system development, improve the reusability of resources and system ability of adaptive change.The simulation research boundary of warship integrated air-defense and anti-missile battle was confirmed,the corresponding simulation framework was presented from two aspects of tactics and technology. Structure and module function of the tactical simulation framework were clarified. Based on the theory and method of model driven architecture(MDA) and component technology, a flexible reconfiguration technique simulation framework was established. The framework provides a relatively comprehensive and feasible technology method to realize for warship integrated air-defense and anti-missile simulation. The framework has strong generality. Practical application shows that, under the guidance of the framework, the simulation system development process is standardized and simple, simulation resources reusability and simulation system expansibility are strong.
出处
《系统仿真学报》
CAS
CSCD
北大核心
2015年第1期155-162,共8页
Journal of System Simulation
关键词
舰艇
防空反导
仿真框架
组件
模型驱动架构(MDA)
warship
air-defense and anti-missile
simulation framework
component
model driven architecture(MDA)
