Comparative study of rainfall measurement by optical disdrometer, tipping-bucket rain gauge, and weighing precipitation gauge

In this study, the rainfall measurement characteristics of an optical particle size velocity (Parsivel) disdrometer, tipping-bucket rain gauge (TBG), and Pluvio weighing precipitation gauge (WPG) were analyzed and compared. Correlation analysis was performed between the 10-min and 1-h rainfall data...

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Veröffentlicht in:	Natural hazards (Dordrecht) 2024-02, Vol.120 (3), p.2829-2845
Hauptverfasser:	Ro, Yonghun, Chang, Ki-Ho, Hwang, Hyunjun, Kim, Minhoo, Cha, Joo-Wan, Lee, Chulkyu
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Schlagworte:	Civil Engineering Cloud physics Comparative analysis Comparative studies Correlation analysis Earth and Environmental Science Earth Sciences Environmental Management Geophysics/Geodesy Geotechnical Engineering & Applied Earth Sciences Hydrogeology Hydrologic data Natural Hazards Original Paper Physics Precipitation Precipitation gauges Rain Rain gauges Rainfall Rainfall data Rainfall intensity Rainfall measurement Resource utilization Water resources Weighing
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creator	Ro, Yonghun Chang, Ki-Ho Hwang, Hyunjun Kim, Minhoo Cha, Joo-Wan Lee, Chulkyu
description	In this study, the rainfall measurement characteristics of an optical particle size velocity (Parsivel) disdrometer, tipping-bucket rain gauge (TBG), and Pluvio weighing precipitation gauge (WPG) were analyzed and compared. Correlation analysis was performed between the 10-min and 1-h rainfall data observed with the Parsivel, TBG, and Pluvio from 2010 to 2019 at the Cloud Physics Observation Site which is located in northeast area of South Korea (N37.6869, E128.7586). At higher rainfall intensities, the Parsivel observed more rainfall; however, the TBG lost more rainfall during observation. The correlation between the Pluvio and Parsivel data was higher than that between the TBG and Parsivel data. Additionally, the Pluvio showed reduced loss in the rainfall observation than that by the TBG. The correlation between the Pluvio and TBG data was the highest, and the coefficient of determination increased by a maximum of 42.08% for 1-h rainfall compared to that for 10-min rainfall. Therefore, the Pluvio can generate relatively accurate rainfall data for water resource utilization.
doi_str_mv	10.1007/s11069-023-06308-z
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subjects	Civil Engineering Cloud physics Comparative analysis Comparative studies Correlation analysis Earth and Environmental Science Earth Sciences Environmental Management Geophysics/Geodesy Geotechnical Engineering & Applied Earth Sciences Hydrogeology Hydrologic data Natural Hazards Original Paper Physics Precipitation Precipitation gauges Rain Rain gauges Rainfall Rainfall data Rainfall intensity Rainfall measurement Resource utilization Water resources Weighing
title	Comparative study of rainfall measurement by optical disdrometer, tipping-bucket rain gauge, and weighing precipitation gauge
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