Abstract
ABSTRACT Evaporation, one of the fundamental components of the hydrology cycle, is differently influenced by various meteorological variables in different climatic regions. The accurate prediction of evaporation is essential for multiple water resources engineering applications, particularly in developing countries like Iraq where the meteorological stations are not sustained and operated appropriately for in situ estimations. This is where advanced methodologies such as machine learning (ML) models can make valuable contributions. In this research, evaporation is predicted at two different meteorological stations located in arid and semi-arid regions of Iraq. Four different ML models for the prediction of evaporation – the classification and regression tree (CART), the cascade correlation neural network (CCNNs), gene expression programming (GEP), and the support vector machine (SVM) – were developed and constructed using various input combinations of meteorological variables. The results reveal that the best predictions are achieved by incorporating sunshine hours, wind speed, relative humidity, rainfall, and the minimum, mean, and maximum temperatures. The SVM was found to show the best performance with wind speed, rainfall, and relative humidity as inputs at Station I (R 2 = .92), and with all variables as inputs at Station II (R 2 = .97). All the ML models performed well in predicting evaporation at the investigated locations.
Highlights
Evaporation is a key process in the hydrologic cycle which has a direct effect on the planning and operation of water resources (Penman, 1948; Stewart, 1984)
Several versions of ML models have been developed for evaporation modeling, including evolutionary computing, classical neural networks, kernel models, fuzzy logic, decision trees, deep learning, complementary wavelet-machine learning, and hybrid machine learning, among others (Danandeh Mehr et al, 2018; Fahimi, Yaseen, & El-shafie, 2016; Jing et al, 2019; Yaseen, Sulaiman, Deo, & Chau, 2019)
The aim of this study is to investigate the feasibility of the four different ML models listed above for modeling the evaporation at two Iraqi meteorological stations located in Mosul and Baghdad
Summary
Evaporation is a key process in the hydrologic cycle which has a direct effect on the planning and operation of water resources (Penman, 1948; Stewart, 1984). Several versions of ML models have been developed for evaporation modeling, including evolutionary computing, classical neural networks, kernel models, fuzzy logic, decision trees, deep learning, complementary wavelet-machine learning, and hybrid machine learning, among others (Danandeh Mehr et al, 2018; Fahimi, Yaseen, & El-shafie, 2016; Jing et al, 2019; Yaseen, Sulaiman, Deo, & Chau, 2019) The performance of these models and their hybrid combinations has been impressive in terms of prediction accuracy (Ghorbani, Deo, Karimi, Yaseen, & Terzi, 2017; Yaseen et al, 2018). The performances of the four applied models are compared in order to assess their prediction efficiencies and evaluate the role of the various climatic factors in the prediction of evaporation in arid and semi-arid regions
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