摘要
面向制导武器半实物仿真试验任务全周期,明确了制导武器半实物仿真试验可信度评估的概念,并从仿真系统可信度评估、仿真试验过程监测、仿真试验结果可信度评估三个层次对仿真试验可信度评估模型及流程进行了说明。构建了基于TOPSIS(Technique for Order Preference by Similarity to Ideal Solution)法的制导武器半实物仿真系统可信度评估方法及仿真与实弹飞行数据相结合的仿真试验结果可信度评估方法,并进行了应用验证。能够很好的分析仿真试验可信度,有效提高可信度评估的实际应用意义,为半实物仿真试验应用于制导武器鉴定试验提供有力支撑。
The thesis explained the concept of credibility evaluation of hardware-in-the-loop simulation. The models and the processes were introduced in three parts: credibility evaluation of simulation system, monitoring of simulation test process, and credibility evaluation of simulation results. The credibility evaluation model of hardware-in-the-loop simulation system was built based on TOPSIS and the credibility evaluation model of simulation results was built based on simulation and firing practace. This way could answer the credibility of hardware-in-the-loop simulation, and provide strong support for hardware-in-the-loop simulation in guided weapons test and evaluation.
作者
豆建斌
王小兵
单斌
张燕
Dou Jianbin;Wang Xiaobing;Shan Bin;Zhang Yan(China HuaYin Ordnance Test Center Key Lab of Guided Weapons Test and Evaluation Simulation Technology Huayin 714200, China)
出处
《系统仿真学报》
CAS
CSCD
北大核心
2017年第12期3023-3029,共7页
Journal of System Simulation
关键词
制导武器
半实物仿真
可信度评估
置信区间
guided weapon
hardware-in-the-loop simulation
credibility evaluation
confidence interval