An intelligent approach for estimating aeration efficiency in stepped cascades: optimized support vector regression models and mutual information theory

Haji Seyed Asadollah, Seyed Babak, Sharafati, Ahmad, Haghbin, Masoud, Motta, Davide and Hosseinian Moghadam Noghani, Mohamadreza (2022) An intelligent approach for estimating aeration efficiency in stepped cascades: optimized support vector regression models and mutual information theory. Soft Computing, 26 (24). pp. 13969-13984. ISSN 1432-7643

Latest Accepted Revision.pdf - Accepted Version

Download (913kB) | Preview
Official URL:


Soft computing (SC) methods have increasingly been used to solve complex hydraulic engineering problems, especially those characterized by high uncertainty. SC approaches have previously proved to be an accurate tool for predicting the aeration efficiency coefficient (E20) in hydraulic structures such as weirs and flumes. In this study, the performance of the standalone support vector regression (SVR) algorithm and three of its hybrid versions, support vector regression–firefly algorithm (SVR-FA), support vector regression–grasshopper optimization algorithm (SVR-GOA), and support vector regression–artificial bee colony (SVR-ABC), is assessed for the prediction of E20 in stepped cascades. Mutual information theory is used to construct input variable combinations for prediction, including the parameters unit discharge (q), the total number of steps (N), step height (h), chute overall length (L), and chute inclination (α). Entropy indicators, such as maximum likelihood, Jeffrey, Laplace, Schurmann–Grassberger, and minimax, are computed to quantify the epistemic uncertainty associated with the models. Four indices—correlation coefficient (R), Nash–Sutcliffe efficiency (NSE), root mean square error (RMSE), and mean absolute error (MAE)—are employed for evaluating the models’ prediction performance. The models’ outputs reveal that the SVR-FA model (with R=0.947,NSE=0.888,RMSE=0.048andMAE=0.027 in testing phase) has the best performance among all the models considered. The input variable combination, including q, N, h, and L, provides the best predictions with the SVR, SVR-FA, and SVR-GOA models. From the uncertainty analysis, the SVR-FA model shows the closest entropy values to the observed ones (3.630 vs. 3.628 for the “classic” entropy method and 3.647 vs. 3.643 on average for the Bayesian entropy method). This study proves that SC algorithms can be highly accurate in simulating aeration efficiency in stepped cascades and provide a valid alternative to the traditional empirical equation.

Item Type: Article
Uncontrolled Keywords: Aeration Efficiency, Stepped Cascades, Support Vector Regression, Optimization Algorithm
Subjects: G600 Software Engineering
H300 Mechanical Engineering
Department: Faculties > Engineering and Environment > Mechanical and Construction Engineering
Depositing User: John Coen
Date Deposited: 21 Sep 2022 08:04
Last Modified: 22 Aug 2023 03:30

Actions (login required)

View Item View Item


Downloads per month over past year

View more statistics