1. Using deep learning for precipitation forecasting based on spatio-temporal information: a case study.
- Author
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Li, Weide, Gao, Xi, Hao, Zihan, and Sun, Rong
- Subjects
DEEP learning ,PRECIPITATION forecasting ,LONG-term memory ,DATA mining ,FEATURE extraction ,MACHINE learning - Abstract
Accurate precipitation prediction is very important for social life and economical activity. Prediction of the quantitative precipitation in semi-arid areas is difficult because of rain scarcity and volatility. In this study, the 3-h precipitation situation in the semi-arid region of Lanzhou is predicted, that is, the precipitation status after 3 h is forecasted on 5 levels: 'no rain', 'light rain', 'moderate rain', 'heavy rain' and 'torrential rain'. We selected the meteorological data from 25 stations in and nearby Lanzhou, and processed the data with lag, difference and multiplication. Due to the large number of features, we use Mutual Information (MI) feature extraction method to reduce feature dimension, extract the features that are highly correlated with the target variable, and introduce spatio-temporal information in this way. Precipitation in semi-arid areas also has the problem of sample imbalance. We oversampled the data using Adaptive Synthetic (ADASYN) sampling approach and generated some minority class samples. Based on the MI feature extraction method and the ADASYN oversampling method, we constructed an Adaptive Synthesis and Mutual Information extraction Matrix (ASMI-M), which is the feature matrix used for model training. Then we proposed a Convolutional Neural Network and Long Short Term Memory (CNN-LSTM) model based on deep learning to predict the 3-h precipitation in Lanzhou City, which has achieved better prediction performance than traditional machine learning methods. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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