A wavelet–linear genetic programming model for sodium (Na+) concentration forecasting in rivers
•This study presents the ANN, WANN, LGP and WLGP models for prediction of sodium.•Among the applied models, WLGP showed the best efficiency in terms of the NSE, RMSE, MAE and P.•WLGP was better approximated the cumulative streamflow than the other models.•The innovation of the study is prediction of...
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Veröffentlicht in: | Journal of hydrology (Amsterdam) 2016-06, Vol.537, p.398-407 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | •This study presents the ANN, WANN, LGP and WLGP models for prediction of sodium.•Among the applied models, WLGP showed the best efficiency in terms of the NSE, RMSE, MAE and P.•WLGP was better approximated the cumulative streamflow than the other models.•The innovation of the study is prediction of the sodium using LGP and WLGP models.
The prediction of water quality parameters in water resources such as rivers is of importance issue that needs to be considered in better management of irrigation systems and water supplies. In this respect, this study proposes a new hybrid wavelet–linear genetic programming (WLGP) model for prediction of monthly sodium (Na+) concentration. The 23-year monthly data used in this study, were measured from the Asi River at the Demirköprü gauging station located in Antakya, Turkey. At first, the measured discharge (Q) and Na+ datasets are initially decomposed into several sub-series using discrete wavelet transform (DWT). Then, these new sub-series are imposed to the ad hoc linear genetic programming (LGP) model as input patterns to predict monthly Na+ one month ahead. The results of the new proposed WLGP model are compared with LGP, WANN and ANN models. Comparison of the models represents the superiority of the WLGP model over the LGP, WANN and ANN models such that the Nash–Sutcliffe efficiencies (NSE) for WLGP, WANN, LGP and ANN models were 0.984, 0.904, 0.484 and 0.351, respectively. The achieved results even points to the superiority of the single LGP model than the ANN model. Continuously, the capability of the proposed WLGP model in terms of prediction of the Na+ peak values is also presented in this study. |
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ISSN: | 0022-1694 1879-2707 |
DOI: | 10.1016/j.jhydrol.2016.03.062 |