快速诊断和定位分布构件系统故障,对减少系统的平均恢复时间、增强分布构件系统的高可靠性和高可用性具有重要的意义。
Thus, diagnosing and locating of faults efficiently inside the large-scale distributed systems are imperative for reducing mean time to repair and keeping the high reliability and usability.
本算法充分利用了系统的可测性电路及资源,测试复杂性较低,执行时间短,故障定位精度也较高。
The testability resource of hardware is fully considered, so that the test complexity and testing time are largely reduced and fault location is well sa…
高压输电线路故障的准确定位,能够缩短故障修复时间,提高供电可靠性,减少停电损失。
By accurate fault location, we can cut down time to repair lines, bring up power supply reliability and reduce lost.
可靠的诊断系统要能够定位全井系统的各类泄漏故障,并且使生产中断时间尽可能短。
Reliable diagnostic systems need to locate all types of barrier failure throughout the well system with minimal disruption.
并在后期通过对数据进行分析处理来定位故障发生时间和类型。
Later, the technical staff locates the time and type of fault through analysis of the data processing.
故障定位准确,缩短了故障诊断时间。
The fault was rightly confirmed, and the diagnosis time for fault was decreased.
现有行波测距法基本上都没有把由该方法所确定的行波到达时间与故障定位用行波传播速度很好地结合起来,导致定位精度不理想。
Existing methods for travelling wave fault location don't combine the arrival time of travel-ling wave with the propagation velocity properly, which leads to poor location accuracy.
为解决配电网故障定位问题,使配电网故障定位自动化,以减少巡线工作量和用户停电时间,提出了利用C型行波法对单相接地故障进行故障测距的方法。
To solve the problem of the fault location in distribution networks, a fault location method is suggested for the single-phase grounding fault based on C-type traveling-wave theory.
为解决配电网故障定位问题,使配电网故障定位自动化,以减少巡线工作量和用户停电时间,提出了利用C型行波法对单相接地故障进行故障测距的方法。
To solve the problem of the fault location in distribution networks, a fault location method is suggested for the single-phase grounding fault based on C-type traveling-wave theory.
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