Gaussian Process Regression based Model for Prediction of Discharge Voltage of Air Gaps under Positive Polarity Lightning Impulse Voltages

Vidya M.S., S. K., Deepa S. Kumar, Deepak Mishra, A. S
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Abstract

Discharge voltage of insulation is pivotal in the design of High Voltage systems. In this work, a machine learning algorithm is used to develop a model to predict the discharge characteristics of air. Finite Element Method (FEM) simulations have been performed to extract different electric field and energy features of air gaps in the range 5mm-40mm under lightning impulses of positive polarity. While developing the model, these features along with gap lengths are considered. The features have been used for training a machine learning algorithm based on Gaussian Process Regression (GPR) to develop the model. The results obtained from the model are validated with measured experimental data. A good comparison between the predicted data and the measured data establishes the accuracy of the predicted model. The proposed methodology is compared using different kernel functions.
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基于高斯过程回归的正极雷击电压下气隙放电电压预测模型
绝缘放电电压是高压系统设计的关键。在这项工作中,使用机器学习算法来开发一个模型来预测空气的放电特性。采用有限元模拟方法,提取了正极性雷击作用下5mm ~ 40mm范围内气隙的电场和能量特征。在开发模型时,要考虑这些特征以及间隙长度。这些特征已被用于训练基于高斯过程回归(GPR)的机器学习算法来开发模型。用实测数据验证了模型的正确性。预测数据与实测数据之间的良好对比证明了预测模型的准确性。采用不同的核函数对所提出的方法进行了比较。
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