Abstract
Abstract. Short-term precipitation commonly occurs in south part of China, which brings intensive precipitation in local region for very short time. Massive water would cause the intensive flood inside of city when precipitation amount beyond the capacity of city drainage system. Thousands people’s life could be influenced by those short-term disasters and the higher city managements are required to facing these challenges. How to predict the occurrence of heavy precipitation accurately is one of the worthwhile scientific questions in meteorology. According to recent studies, the accuracy of short-term precipitation prediction based on numerical simulation model still remains low reliability, in some area where lack of local observations, the accuracy may be as low as 10%. The methodology for short term precipitation occurrence prediction still remains a challenge. In this paper, a machine learning method based on SVM was presented to predict short-term precipitation occurrence by using FY2-G satellite imagery and ground in situ observation data. The results were validated by traditional TS score which commonly used in evaluation of weather prediction. The results indicate that the proposed algorithm can present overall accuracy up to 90% for one-hour to six-hour forecast. The result implies the prediction accuracy could be improved by using machine learning method combining with satellite image. This prediction model can be further used to evaluated to predicted other characteristics of weather in Shenzhen in future.
Highlights
Short-term precipitation nowcasting usually refers to 0-6 hours rainfall event occurrence with high spatial and temporal resolution (Yu, 2012)
As table 3 shows, the prediction performance better and the TS score is relatively high in the most of station compare to the studies present by Zhang Lei, 2015
One reason is that the precipitation in the specific station could be affected by different factors with different influence degree
Summary
Short-term precipitation nowcasting usually refers to 0-6 hours (mainly focus on 0-2 hours) rainfall event occurrence with high spatial and temporal resolution (Yu, 2012). Radar echo extrapolation and fine numerical forecast model are the main technology commonly used to predict short-term precipitation (Zou, 2014). The poor accuracy of extrapolation in radar echo inversion significantly affects the accuracy of forecasting. Due to the poor spatial resolution of radar data, poor accuracy remains in precipitation forecasting in local scale (Casati, 2004). Its 30 minutes and 60 minutes of QPF (quantitative precipitation forecast) and TS scores were close to 0.3 and 0.2 respectively. There are still some limitation in quantitatively short-term rainfall forecast or other small probability events. The forecast TS score within 1 hour and 2 hours are below 10% and 3% respectively (Zhang, 2015)
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