Litcius/Paper detail

The development of dissolved oxygen forecast model using hybrid machine learning algorithm with hydro-meteorological variables

A. A. Masrur Ahmed, S. Janifer Jabin Jui, Mohammad Aktarul Islam Chowdhury, Oli Ahmed, Ambica Sutradha

2022Environmental Science and Pollution Research31 citationsDOIOpen Access PDF

Abstract

Dissolved oxygen (DO) forecasting is essential for aquatic managers responsible for maintaining ecosystem health and the management of water bodies affected by water quality parameters. This paper aims to forecast dissolved oxygen (DO) concentration using a multivariate adaptive regression spline (MARS) hybrid model coupled with maximum overlap discrete wavelet transformation (MODWT) as a feature decomposition approach for Surma River water using a set of water quality hydro-meteorological variables. The proposed hybrid model is compared with numerous machine learning methods, namely Bayesian ridge regression (BNR), k-nearest neighbourhood (KNN), kernel ridge regression (KRR), random forest (RF), and support vector regression (SVR). The investigational results show that the proposed model of MODWT-MARS has a better prediction than the comparing benchmark models and individual standalone counter parts. The result shows that the hybrid algorithms (i.e. MODWT-MARS) outperformed the other models (r = 0.981, WI = 0.990, RMAE = 2.47%, and MAE = 0.089). This hybrid method may serve to forecast water quality variables with fewer predictor variables.

Topics & Concepts

Multivariate adaptive regression splinesRandom forestMars Exploration ProgramSupport vector machineMachine learningWater qualityAlgorithmOverfittingArtificial intelligenceRegressionComputer scienceArtificial neural networkRegression analysisMathematicsBayesian multivariate linear regressionStatisticsEcologyAstronomyPhysicsBiologyHydrological Forecasting Using AIWater Quality Monitoring TechnologiesWater Quality and Pollution Assessment