Fault identification in HVDC using artificial intelligence — Recent trends and perspective

M. Ramesh, A. Laxmi
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引用次数: 35

Abstract

The safe operation of AC-DC systems requires the Monitoring of appropriate system signals, the accuracy and rapid classification of any perturbations so that protective control decisions can be made. In case of fast acting HVDC transmission system, such decisions must often be made within tens of milliseconds to guarantee safe operation from disturbances such as the common commutation failures. The detection and fast clearance of faults are important for safe and optimal operation of power systems. Due to the integration of fast acting HVDC systems in ac power systems, it is necessary to detect, classify and clear the faults as fast as possible. The source and cause of disturbances or faults must be known before appropriate mitigation action be taken. For secure operation of a system, a feasible approach is to monitor the signals so that accurate and rapid classification of fault is possible for making correct protective control decisions. However, fast and reliable fault identification is still a big challenge. It is not easy to identify HVDC faults by using pure frequency or pure time domain based methods. The pure frequency domain based methods are not suitable for the time-varying transients and the pure time domain based methods are very easily influenced by noise. Recently, due to advancement of power electronics technology, High Voltage Direct Current (HVDC) transmission technology has been utilized to identify the faults in power system. The HVDC Transmission system is very reliable, flexible and cost effective. Advances in artificial intelligence techniques such as Fuzzy, Neural and ANN etc. and Power Semiconductor devices have made tremendous impact in the identifying of faults in HVDC system. A case is made to present overview of the artificial intelligence techniques to identify the faults in HVDC transmission system.
使用人工智能的HVDC故障识别-最新趋势和前景
交直流系统的安全运行需要对适当的系统信号进行监测,对任何扰动进行准确和快速的分类,以便做出保护控制决策。对于快速作用的高压直流输电系统,通常必须在几十毫秒内做出这样的决策,以保证安全运行,不受常见换流故障等干扰。故障的检测和快速排除对电力系统的安全优化运行具有重要意义。由于交流电力系统中的快速直流系统是一体化的,因此需要尽快检测、分类和清除故障。在采取适当的缓解措施之前,必须了解干扰或故障的来源和原因。为了保证系统的安全运行,一种可行的方法是对信号进行监测,以便准确、快速地对故障进行分类,从而做出正确的保护控制决策。然而,快速、可靠的故障识别仍然是一个很大的挑战。纯频域或纯时域方法都不容易对高压直流故障进行识别。单纯基于频域的方法不适用于时变瞬态,且单纯基于时域的方法极易受噪声影响。近年来,由于电力电子技术的进步,高压直流输电技术已被用于电力系统的故障识别。高压直流输电系统可靠、灵活、经济。模糊、神经网络、人工神经网络等人工智能技术和功率半导体器件的发展对高压直流系统的故障识别产生了巨大的影响。通过实例介绍了人工智能技术在高压直流输电系统故障识别中的应用概况。
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