Finally, a kind of mixed fault prediction algorithm is presented.
最后根据流程图给出一种混合的故障预测算法。
According to the characters of traditional expert system and neural network, a neutral - network - based mixed fault diagnosis expert system was designed.
针对传统专家系统和神经网络的各自特点,将两者有机结合,构造了一种基于神经网络的混合型故障诊断专家系统。
In real optic fiber circuit, signal will be often mixed with noises. During fault analysis, it's necessary to find event information from the noise, and accurately judge position of event points.
实际光纤线路的信号中常常混有噪声,在故障分析中必须将事件点信息从噪声中提取出来,再精确地判断出事件点的位置。
How to test the analogue and mixed-signal circuits has become very critical to the IC testing, a novel fault diagnosis method based on current testing is proposed for mixed-signal circuits.
针对集成电路测试中模拟和混合电路的测试问题,提出了一种基于小波分析的电流测试实现混合信号电路故障诊断的方法。
A fault diagnosis equation for the twin-spool mixed flow turbofan engine was established based on the simulation and gas path analysis.
并以此为基础运用气路分析原理,选取表征发动机性能参数变化的症兆变量和测量参数,建立了发动机故障诊断小偏差方程。
Moreover, in IDDT diagnosis, the conception of fault feature curve and feature space is proposed to diagnose the fault in the analog and mixed-signal circuit.
此外,对动态电流故障诊断算法提出特征空间和特征曲线的概念,以实现对动态电流信号中的故障信息的有效提取。
Using transient traveling waves generated by fault to locate single-phase earth fault or short circuit fault in distribution feeders mixed with overhead lines and cables is proposed.
该文提出利用线路故障产生的暂态行波实现配电架空线、电缆混合线路单相接地及相间短路故障测距,分析了故障初始行波模分量的暂态特征。
It provides a new idea for the mixed-signal circuits testing and the intelligentization of fault diagnosis system.
为实现数模混合电路的测试与故障诊断系统的智能化提供了一种新思路。
The example showed that mixed-signal circuits fault diagnosis systems with this method can be built rapidly and diagnose faults accurately.
诊断实例表明,使用该方法实现数模混合电路故障诊断系统,具有高建模速度和高诊断精度的特点。
Results show that the method can not only gain the diagnosis signal value from mixed noise but also realize fault-branch identification and fault location.
实验表明,本方法可从复杂噪声中提取诊断信号,实现故障分支识别和接地点测距。
Results show that the method can not only gain the diagnosis signal value from mixed noise but also realize fault-branch identification and fault location.
实验表明,本方法可从复杂噪声中提取诊断信号,实现故障分支识别和接地点测距。
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