Abstract: As the scale and performance requirements of simulation applications increase,meeting the demand for faster-than-real-time simulation and improving the reusability,scalability and intelligent level of the system have become key issues in the construction of  simulation systems.Based on the research of traditional real-time simulation technology,an intelligent faster-than-real-time simulation architecture was proposed on the basis of Design-of-Experiment (DOE) from the perspective of software module composition,simulation propulsion strategy,model status management and so on.A faster-than-real-time simulation strategy based on parallel simulation and active global simulation time advancement was created.Through the faster-than-real-time simulation application for the aircraft supporting process on flight deck,the goal of the effectiveness evaluation was achieved.

Key words: intelligent simulation system, effectiveness evaluation, design-of-experiment, parallel simulation, shipboard aircraft supporting

摘要： 随着仿真性能需求和应用规模的提高,满足超实时仿真效率要求,提高系统的重用性、扩展性和智能化水平,成为仿真系统构建的关键问题。基于传统仿真技术研究,从系统的软件模块组成、仿真推进策略、模型状态管理等方面,设计了基于试验设计方法的智能超实时仿真系统架构,提出了基于并行仿真技术及主动全局仿真时间管理机制的超实时仿真策略。通过针对大型舰船舰面航空保障过程的仿真示例,验证了超实时仿真系统的设计思想,达到了面向航空保障过程的仿真推演及效能评估目标。

关键词: 智能仿真系统, 效能评估, 试验设计, 并行仿真, 舰面航空保障