Hybrid Water Demand Forecasting Model Associating Artificial Neural Network with Fourier Series: Fid-Bau Portal

Hybrid Water Demand Forecasting Model Associating Artificial Neural Network with Fourier Series

Odan, Frederico Keizo / Reis, Luisa Fernanda Ribeiro

Abstract

This paper addressed the problem of water-demand forecasting for real-time operation of water supply systems. The present study was conducted to identify the best fit model using hourly consumption data from the water supply system of Araraquara, São Paulo, Brazil. Artificial neural networks (ANNs) were used in view of their enhanced capability to match or even improve on the regression model forecasts. The ANNs used were the multilayer perceptron with the back-propagation algorithm (MLP-BP), the dynamic neural network (DAN2), and two hybrid ANNs. The hybrid models used the error produced by the Fourier series forecasting as input to the MLP-BP and DAN2, called ANN-H and DAN2-H, respectively. The tested inputs for the neural network were selected literature and correlation analysis. The results from the hybrid models were promising, DAN2 performing better than the tested MLP-BP models. DAN2-H, identified as the best model, produced a mean absolute error (MAE) of $3.3 L / s$ and $2.8 L / s$ for training and test set, respectively, for the prediction of the next hour, which represented about 12% of the average consumption. The best forecasting model for the next 24 hours was again DAN2-H, which outperformed other compared models, and produced a MAE of $3.1 L / s$ and $3.0 L / s$ for training and test set respectively, which represented about 12% of average consumption.