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- Title
Effect of Gradient Descent Optimizers and Dropout Technique on Deep Learning LSTM Performance in Rainfall-runoff Modeling.
- Authors
Anh, Duong Tran; Thanh, Dat Vi; Le, Hoang Minh; Sy, Bang Tran; Tanim, Ahad Hasan; Pham, Quoc Bao; Dang, Thanh Duc; Mai, Son T.; Dang, Nguyen Mai
- Abstract
Machine learning and deep learning (ML-DL) based models are widely used for rainfall-runoff prediction and they have potential to substitute process-oriented physics based numerical models. However, developing an ML model has also performance uncertainty because of inaccurate choices of hyperparameters and neural networks architectures. Thus, this study aims to search for best optimization algorithms to be used in ML-DL models namely, RMSprop, Adagrad, Adadelta, and Adam optimizers, as well as dropout techniques to be integrated into the Long Short Term Memory (LSTM) model to improve forecasting accuracy of rainfall-runoff modeling. A deep learning LSTMs were developed using 480 model architectures at two hydro-meteorological stations of the Mekong Delta, Vietnam, namely Chau Doc and Can Tho. The model performance is tested with the most ideally suited LSTM optimizers utilizing combinations of four dropout percentages respectively, 0%, 10%, 20%, and 30%. The Adagrad optimizer shows the best model performance in the model testing. Deep learning LSTM models with 10% dropout made the best prediction results while significantly reducing overfitting tendency of the forecasted time series. The findings of this study are valuable for ML-based hydrological models set up by identifying a suitable gradient descent (GD) optimizer and optimal dropout ratio to enhance the performance and forecasting accuracy of the ML model.
- Subjects
MEKONG River Delta (Vietnam &; Cambodia); DEEP learning; MACHINE learning; SHORT-term memory; LONG-term memory; HYDROLOGIC models
- Publication
Water Resources Management, 2023, Vol 37, Issue 2, p639
- ISSN
0920-4741
- Publication type
Article
- DOI
10.1007/s11269-022-03393-w