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Statistical modeling of monthly streamflow using time series and artificial neural network models: Hindiya Barrage as a case study

Nabeel Hameed Al-Saati, Isam I. Omran, Alaa Ali Salman Al-Taai, Zainab N. Al-Saati, Khalid Hashim

2021Water Practice & Technology36 citationsDOIOpen Access PDF

Abstract

Abstract Autoregressive Integrated Moving Average (ARIMA) Box-Jenkins models combine the autoregressive and moving average models to a stationary time series after the appropriate transformation, while the nonlinear autoregressive (N.A.R.) or the autoregressive neural network (ARNN) models are of the kind of multi-layer perceptron (M.L.P.), which compose an input layer, hidden layer and an output layer. Monthly streamflow at the downstream of the Euphrates River (Hindiya Barrage) /Iraq for the period January 2000 to December 2019 was modeled utilizing ARIMA and N.A.R. time series models. The predicted Box-Jenkins model was ARIMA (1,1,0) (0,1,1), while the predicted artificial neural network (N.A.R.) model was (M.L.P. 1-3-1). The results of the study indicate that the traditional Box-Jenkins model was more accurate than the N.A.R. model in modeling the monthly streamflow of the studied case. Performing a one-step-ahead forecast during the year 2019, the forecast accuracy between the forecasted and recorded monthly streamflow for both models was as follows: the Box-Jenkins model gave root mean squared error (RMSE = 48.7) and the coefficient of determination = 0.801), while the (NAR) model gave (RMSE = 93.4) and = 0.269). Future projection of the monthly stream flow through the year 2025, utilizing the Box-Jenkins model, indicated the existence of long-term periodicity.

Topics & Concepts

Autoregressive integrated moving averageMean squared errorAutoregressive modelStreamflowBox–JenkinsNonlinear autoregressive exogenous modelArtificial neural networkTime seriesSeries (stratigraphy)MathematicsCoefficient of determinationStatisticsEnvironmental scienceComputer scienceGeographyArtificial intelligenceGeologyCartographyPaleontologyDrainage basinHydrological Forecasting Using AIEnergy Load and Power ForecastingStock Market Forecasting Methods