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A Machine‐Learning Approach to Classify Cloud‐to‐Ground and Intracloud Lightning

Yanan Zhu, Phillip M. Bitzer, Vladimir A. Rakov, Ziqin Ding

2020Geophysical Research Letters33 citationsDOI

Abstract

Abstract To know if a lightning discharge reaches the ground or remains within the thundercloud is critical for lightning safety as cloud‐to‐ground lightning poses the greatest threat to life and property. The current classification methods for most lightning detection networks, which are based on the classification of electromagnetic pulses produced by lightning, still have plenty of room to improve, including some known issues to be addressed. We present a machine‐learning approach to classify lightning discharges. The classification model used in this study is based on Support Vector Machines (SVMs). Compared with traditional multiparameter methods, our algorithm does not require extraction of individual pulse parameters and additionally provides a probability for each prediction. Using a representative lightning pulse data collected by the Cordoba Marx Meter Array in Argentina, we found the classification accuracy of our machine‐learning algorithm to be 97%, which is higher than that for the existing lightning detection networks.

Topics & Concepts

Lightning (connector)Lightning detectionSupport vector machineComputer scienceLightning strikeElectromagnetic pulseUpper-atmospheric lightningMeteorologyCloud computingArtificial intelligenceMachine learningRemote sensingGeologyPhysicsThunderstormEngineeringPower (physics)Electrical engineeringOperating systemQuantum mechanicsLightning and Electromagnetic PhenomenaFire effects on ecosystemsTree Root and Stability Studies
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