Monthly Runoff Prediction Based on STL-CEEMDAN-LSTM Model
According to the nonlinear and non-stationary characteristics of monthly runoff sequences, the quadratic decomposition method was combined with machine learning to construct a model for predicting monthly runoff. This model uses a seasonal trend decomposition procedure based on loess (STL) to decomp...
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| Published in | Ren min Zhu Jiang pp. 1 - 11 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | Chinese |
| Published |
Editorial Office of Pearl River
01.01.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1001-9235 |
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| Abstract | According to the nonlinear and non-stationary characteristics of monthly runoff sequences, the quadratic decomposition method was combined with machine learning to construct a model for predicting monthly runoff. This model uses a seasonal trend decomposition procedure based on loess (STL) to decompose the measured monthly runoff sequence into trend terms, seasonal terms, and residual terms with different frequencies. The complete ensemble empirical mode decomposition with adaptive noise (CEEMDAN) algorithm was then applied to decompose the residual terms to obtain intrinsic mode functions (IMFs) of different frequency components. Finally, the trend term, seasonal term, and each modal component IMF were used as inputs for the long short term memory network (LSTM) for training and prediction. The model was validated with measured monthly runoff data from Tangnaihai hydrological station in the upper reaches of the Yellow River and was compared and analyzed with other models. The results show that the STL-CEEMDA |
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| AbstractList | According to the nonlinear and non-stationary characteristics of monthly runoff sequences, the quadratic decomposition method was combined with machine learning to construct a model for predicting monthly runoff. This model uses a seasonal trend decomposition procedure based on loess (STL) to decompose the measured monthly runoff sequence into trend terms, seasonal terms, and residual terms with different frequencies. The complete ensemble empirical mode decomposition with adaptive noise (CEEMDAN) algorithm was then applied to decompose the residual terms to obtain intrinsic mode functions (IMFs) of different frequency components. Finally, the trend term, seasonal term, and each modal component IMF were used as inputs for the long short term memory network (LSTM) for training and prediction. The model was validated with measured monthly runoff data from Tangnaihai hydrological station in the upper reaches of the Yellow River and was compared and analyzed with other models. The results show that the STL-CEEMDA |
| Author | HUO Jianzhen PAN Hongzhong QI Shansheng WANG Zhance SHEN Yanqing WANG Hai |
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| Snippet | According to the nonlinear and non-stationary characteristics of monthly runoff sequences, the quadratic decomposition method was combined with machine... |
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| SubjectTerms | modal decomposition neural networks for short and long-term memory runoff prediction upper reaches of the Yellow River |
| Title | Monthly Runoff Prediction Based on STL-CEEMDAN-LSTM Model |
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