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Estimation of natural streams longitudinal dispersion coefficient using hybrid evolutionary machine learning model

Leonardo Goliatt, Sadeq Oleiwi Sulaiman, Khaled Mohamed Khedher, Aitazaz A. Farooque, Zaher Mundher Yaseen‬‬‬‬‬‬‬‬‬‬‬‬‬‬‬‬

2021Engineering Applications of Computational Fluid Mechanics22 citationsDOIOpen Access PDF

Abstract

Among several indicators for river engineering sustainability, the longitudinal dispersion coefficient ( $ K_x $ ) is the main parameter that defines the transport of pollutants in natural streams. Accurate estimation of $ K_x $ has been challenging for hydrologists due to the high stochasticity and non-linearity of this hydraulic-environmental parameter. This study presents a new hybrid machine learning (ML) model integrating a Gaussian Process Regression (GPR) and an evolutionary feature selection (FS) approach (i.e. Covariance Matrix Adaptation Evolution Strategy (CMAES)) to estimate $ K_x $ in natural streams. The dataset consists of geometric and hydraulic river system parameters from 29 streams in the United States. The modeling results showed that the proposed model outperformed other models in the literature, producing more stable and accurate estimations. The FS approach evidenced the significance of the cross-sectional average flow velocity (U), channel width (B), and channel sinuosity σ to estimate the dispersion coefficient. In quantitative terms, the integrated GPR model with feature selection approach attained the minimum root mean square error ( $ {\rm RMSE} = 48.67 $ ) and maximum coefficient of determination ( $ R^2 = 0.95 $ ). The proposed hybrid evolutionary ML model arises as robust, flexible and reliable alternative computer aid technology for predicting the longitudinal dispersion coefficient in natural streams.

Topics & Concepts

Mean squared errorSTREAMSStatisticsComputer scienceDispersion (optics)Coefficient of determinationChannel (broadcasting)MathematicsData miningPhysicsOpticsComputer networkHydrology and Watershed Management StudiesHydrology and Sediment Transport ProcessesHydrological Forecasting Using AI