Work out optimization in the induced electromagnetic field calculation due to a lightning stroke

Journal of Engineering and Technology for Industrial Applications Pub Date : 1900-01-01 DOI:10.5935/2447-0228.20170075

J. A. Gutiérrez-Robles, V. Ortiz-Muro, O. Aguilar-Peña, M. A. Villalobos-Castro, S. A. Vargas-Sanchez

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Abstract

In the electromagnetic field work out, due to indirect lightning discharge, the consumption of computational resources is essentially in the numerical integration of the Maxwell equations. These equations are solved in each discretized point for each time step because the work out of the field involves the inverse of the distance that’s powered by 2, 3, 4 and 5; additiona lly its depends on the wave incident angle, which varies point by point, so it is impossible to interpolate, in a traditional way, intermediate data to optimize the calculus. It is proposed here the implementation of a parabolic space interpolation to reduce the computational needed resources; the compromise is the electromagnetic field calculation in the minimum time limiting the error to 0.2%. It is looking for the optimum points, methodologically, to implement this interpolation by checking the results against the obtained ones without the omission of any point, so it is considered that this strategy is a good option in the electromagnetic field optimum calculation

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对雷击感应电磁场的计算进行了优化

在电磁场计算中，由于间接雷击放电，计算资源的消耗主要体现在对麦克斯韦方程组的数值积分上。这些方程在每个时间步长的离散点上求解因为场外的功涉及到距离的倒数它由2 3 4 5次方;此外，它取决于波的入射角，而入射角随点而变化，因此无法用传统的方法插入中间数据来优化计算。本文提出了一种抛物线空间插值的实现方法，以减少计算资源;折衷方案是电磁场计算在最小时间内将误差限制在0.2%。通过对插值结果的检验，在不遗漏任何点的情况下，从方法上寻找最优点来实现该插值，因此认为该策略在电磁场优化计算中是一种很好的选择

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来源期刊

Journal of Engineering and Technology for Industrial Applications

CiteScore

0.60

自引率

0.00%

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