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Accurate discharge and water level forecasting using ensemble learning with genetic algorithm and singular spectrum analysis-based denoising

Nguyen School of Information and Communication Technology, Hanoi University of Science and Technology, Hanoi, Viet Nam|
Kien (24315251000) | Thanh Hung (57674974300); Nguyen | Minh Hieu (57220858708); Nguyen | Viet Huy (57971543200); Nguyen | Quoc Viet (57971543100); Nguyen | Viet Hung (57226797176); Pham | Phi (36082692200); Vu | Anh Duy (57215546331); Le Nguyen Institute for Advanced Academic Research, Chiba University, Chiba, Japan|

Scientific Reports Số 1, năm 2022 (Tập 12, trang -)

ISSN: 20452322

ISSN: 20452322

DOI: 10.1038/s41598-022-22057-8

Tài liệu thuộc danh mục:

Article

English

Tóm tắt tiếng anh
Forecasting discharge (Q) and water level (H) are essential factors in hydrological research and flood prediction. In recent years, deep learning has emerged as a viable technique for capturing the non-linear relationship of historical data to generate highly accurate prediction results. Despite the success in various domains, applying deep learning in Q and H prediction is hampered by three critical issues: a shortage of training data, the occurrence of noise in the collected data, and the difficulty in adjusting the model’s hyper-parameters. This work proposes a novel deep learning-based Q–H prediction model that overcomes all the shortcomings encountered by existing approaches. Specifically, to address data scarcity and increase prediction accuracy, we design an ensemble learning architecture that takes advantage of multiple deep learning techniques. Furthermore, we leverage the Singular-Spectrum Analysis (SSA) to remove noise and outliers from the original data. Besides, we exploit the Genetic Algorithm (GA) to propose a novel mechanism that can automatically determine the prediction model’s optimal hyper-parameters. We conducted extensive experiments on two datasets collected from Vietnam’s Red and Dakbla rivers. The results show that our proposed solution outperforms current techniques across a wide range of metrics, including NSE, MSE, MAE, and MAPE. Specifically, by exploiting the ensemble learning technique, we can improve the NSE by at least 2 %. Moreover, with the aid of the SSA-based data preprocessing technique, the NSE is further enhanced by more than 5 %. Finally, thanks to GA-based optimization, our proposed model increases the NSE by at least 6 % and up to 40 % in the best case. © 2022, The Author(s).

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