Please use this identifier to cite or link to this item: http://117.252.14.250:8080/jspui/handle/123456789/4736
Title: Ensemble modelling framework for groundwater level prediction in urban areas of India
Authors: Yadav, Basant
Gupta, Pankaj Kumar
Patidar, Nitesh
Himanshu, Sushil Kumar
Keywords: Machine learning
Mutual information
Genetic algorithm
Artificial neural network
Support vector machine
Urbanization
Issue Date: 2020
Publisher: Elsevier
Citation: Science of the total environment 712 (2020) 135539
Abstract: India is facing the worst water crisis in its history and major Indian cities which accommodate about 50% of its populationwill be among highly groundwater stressed cities by 2020. In past fewdecades, the urban groundwater resources declined significantly due to over exploitation, urbanization, population growth and climate change. To understand the role of these variables on groundwater level fluctuation, we developed a machine learning based modelling approach considering singular spectrum analysis (SSA), mutual information theory (MI), genetic algorithm(GA), artificial neural network (ANN) and support vector machine (SVM). The developed approach was used to predict the groundwater levels in Bengaluru, a densely populated city with declining groundwater water resources. The input data which consist of groundwater levels, rainfall, temperature, NOI, SOI, NIÑO3 and monthly population growth rate were pre-processed using mutual information theory, genetic algorithmand lag analysis. Later, the optimized input setswere used inANNand SVMto predictmonthly groundwater level fluctuations. The results suggest that the machine learning based approach with data pre-processing predict groundwater levels accurately (R N 85%). It is also evident from the results that the pre-processing techniques enhance the prediction accuracy and results were improved for 66% of the monitored wells. Analysis of various input parameters suggest, inclusion of population growth rate is positively correlated with decrease in groundwater levels. The developed approach in this study for urban groundwater prediction can be useful particularly in cities where lack of pipeline/sewage/drainage lines leakage data hinders physical based modelling.
URI: http://117.252.14.250:8080/jspui/handle/123456789/4736
Appears in Collections:Research papers in International Journals

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