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Multi-site and multi-year precipitation isotope δ18O forecasting using CNN, Bi-LSTM, CNN-Bi-LSTM, and spatiotemporal clustering
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  • Yang Li,
  • Siyuan Huo,
  • Bin Ma,
  • Bingbing Pei,
  • Qiankun Tan,
  • Deng Wang
Yang Li
长江大学
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Siyuan Huo
长江大学

Corresponding Author:[email protected]

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Bin Ma
中国地质大学
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Bingbing Pei
长江大学,长江大学
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Qiankun Tan
长江大学,长江大学
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Deng Wang
长江大学
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Abstract

The combined utilization of spatiotemporal clustering and deep learning neural network models were designed to evaluate the applicability of the multi-year and multi-sites precipitation δ18O forecasting method based on the precipitation isotope data of 10 stations in Germany from 1988 to 2012. In the overall forecasting, the performance of single-site multi-year forecasting is in the order of the Bi-directional Long Short-Term Memory (Bi-LSTM), CNN-Bi-LSTM, and the Convolutional Neural Network (CNN), with CNN-Bi-LSTM being the optimal model for multi-site multi-year forecasts. The seasonal forecasting does not demonstrate a significant improvement compared to the overall forecasting. For forecasting based on spatiotemporal clustering, cluster 1 improved accuracy, and cluster 2 improved error reduction and variance consistency. Nevertheless, the accuracy of forecasts depends solely on the amount of input data when the proportion of forecasting increases to a certain level. Overall, the seasonal forecasting is more appropriate for improving forecasting within a specific season, while spatiotemporal clustering can improve forecasting accuracy to some degree. In addition, optimal solutions exist for the type and number of model clusters. In terms of model types, CNN-Bi-LSTM generally has better forecasting performance than CNN and Bi-LSTM.