Abstract
Artificial intelligence-based solutions and applications have great potential in various fields of electrical power engineering. The problem of the electrical reliability of power equipment directly refers to the immunity of high-voltage (HV) insulation systems to operating stresses, overvoltages and other stresses—in particular, those involving strong electric fields. Therefore, tracing material degradation processes in insulation systems requires dedicated diagnostics; one of the most reliable quality indicators of high-voltage insulation systems is partial discharge (PD) measurement. In this paper, an example of the application of a neural network to partial discharge images is presented, which is based on the convolutional neural network (CNN) architecture, and used to recognize the stages of the aging of high-voltage electrical insulation based on PD images. Partial discharge images refer to phase-resolved patterns revealing various discharge stages and forms. The test specimens were aged under high electric stress, and the measurement results were saved continuously within a predefined time period. The four distinguishable classes of the electrical insulation degradation process were defined, mimicking the changes that occurred within the electrical insulation in the specimens (i.e., start, middle, end and noise/disturbance), with the goal of properly recognizing these stages in the untrained image samples. The results reflect the exemplary performance of the CNN and its resilience to manipulations of the network architecture and values of the hyperparameters. Convolutional neural networks seem to be a promising component of future autonomous PD expert systems.
Highlights
Artificial intelligence (AI) is one of the most active topics of this decade
An example of the application of a neural network to partial discharge images is presented, which is based on the convolutional neural network architecture, and used to recognize the stages of the aging of high-voltage electrical insulation based on
The sequence of the phase-resolved partial discharge (PD) images taken from the long-term aging experiment was analyzed
Summary
Artificial intelligence (AI) is one of the most active topics of this decade It has experienced explosive growth and is expected to penetrate almost all domains (engineering, metering and control, biomedicine and autonomous vehicles, to mention a few). This will pave the way for more accurate, faster and more cost-effective solutions. As a subset of AI, machine learning is experiencing unprecedented development, especially in the area of artificial neural networks, with many current variants and deployed applications. AI-based solutions and applications have great potential in various fields of electrical power engineering. The electric field exposure in insulation systems is a factor that is responsible for initiating and developing various forms of electrical discharges
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