BP神经网络用于火箭增压输送系统故障检测  被引量:4

BP neural network applied in fault detection of rocket pressurized delivery system

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作  者:张伟星 李建民[1] 侯文[1] 王高[1] 罗悦 薛震宇 ZHANG Weixing;LI Jianmin;HOU Wen;WANG Gao;LUO Yue;XUE Zhenyu(School of Information and Communication,North University of China,Taiyuan 030051,China)

机构地区:[1]中北大学信息与通信工程学院,山西太原030051

出  处:《火箭推进》2021年第5期85-91,共7页Journal of Rocket Propulsion

基  金:国家自然科学基金(61573323)。

摘  要:增压输送系统是火箭产生推力的核心系统,其工作可靠性直接关系到运载火箭安全性。以某型号运载火箭第三级作为故障检测对象,将遥测数据抽样和预处理,降低数据规模和提高故障检测效率,模拟常见故障和偶发故障扩大故障数据规模,使得故障数据和正常数据均衡,通过添加归一化时间序列区分火箭工况。经处理后的遥测数据用于训练BP神经网络,故障检测结果表明:BP神经网络可以利用火箭遥测数据对增压输送系统进行有效的故障检测,正常数据误报率和故障数据漏报率均较低,且可以满足实时故障检测需求。The pressurized delivery system is the core system of rocket to generate thrust, and its working reliability is directly related to the safety of launch vehicle. Taking the third stage of a certain type of launch vehicle as the fault detection object, the telemetry data is sampled and preprocessed to reduce the data scale and improve the fault detection efficiency.By simulating common faults and occasional faults to expand the fault data scale, the fault data and normal data are balanced, and the rocket working conditions are distinguished by adding normalized time series. The processed telemetry data is used to train BP neural network.The fault detection results show that BP neural network can effectively detect the fault of pressurized delivery system by using therocket telemetry data, and the false alarm rate of normal data and false alarm rate of fault data are both low, and it can meet the real-time fault detection requirements.

关 键 词:液体火箭 遥测参数 BP神经网络 故障检测 

分 类 号:V434[航空宇航科学与技术—航空宇航推进理论与工程] TP277[自动化与计算机技术—检测技术与自动化装置]

 

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