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Correlation approach in predictor selection for groundwater level forecasting in areas threatened by water deficits

Joanna Kajewska-Szkudlarek, Justyna Kubicz, I. Kajewski

2021Journal of Hydroinformatics17 citationsDOIOpen Access PDF

Abstract

Abstract Reliable long-term groundwater level (GWL) prediction is essential to assess the availability of resources and the risk to drinking water supply in changing climatic and socio-economic conditions, especially in areas with water deficits. The modern approach in this area involves the use of machine learning methods. However, the greatest challenge in these methods lies in the optimization of input selection. The presented research concerns the selection of the best combination of predictors using the Hellwig method. It served as a preprocessing technique before GWL prediction using support vector regression (SVR) and multilayer perceptron (MLP) for three wells in the Greater Poland Province, where the largest water deficits occur, in the period 1975–2014. The results of this method were compared with those of the regression method, general regression model. For the case study under investigation, the Hellwig method provided the best set of predictors consisted of GWL at lags of −1 and −2 months, precipitation from the current month, and delayed from −1 to −6 months, and past temperature at −1, −3, −4 and −6 months. Such input led to a model accuracy of 0.003–0.022 for a mean squared error and r2 of >0.8. The results obtained with SVR were slightly better than those with MLP. Moreover, every well required an individual set of predictors, and additional meteorological inputs improved the models’ performance.

Topics & Concepts

Multilayer perceptronSupport vector machineSelection (genetic algorithm)RegressionStatisticsMean squared errorPrecipitationWater supplyRegression analysisMathematicsEnvironmental scienceComputer scienceEconometricsArtificial neural networkMachine learningGeographyEnvironmental engineeringMeteorologyHydrological Forecasting Using AIHydrology and Drought AnalysisHydrology and Watershed Management Studies
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