Abstract
Abstract The application of artificial neural network (ANN) models for short-term (15 min) urban water demand predictions is evaluated. Optimization of the ANN model's hyperparameters with a genetic algorithm (GA) and use of a growing window approach for training the model are also evaluated. The results are compared to those of commonly used time series models, namely the Autoregressive Integrated Moving Average (ARIMA) model and a pattern-based model. The evaluations are based on data sets from two Canadian cities, providing 15 min water consumption records over respectively 5 years and 23 months, with a respective mean water demand of 14,560 and 887 m3/d. The GA optimized ANN model performed better than the other models, with Nash–Sutcliffe Efficiencies of 0.91 and 0.83, and relative root mean square errors of 6 and 16% for City 1 and City 2, respectively. The results of this study indicate that the optimization of the hyperparameters of an ANN model can lead to better 15 min urban water demand predictions, which are useful for many real-time control applications, such as dynamic pressure control.
Highlights
Forecasting urban water demand (UWD) is a crucial issue to ensure the better design, operation, and management of water distribution systems (WDSs)
The artificial neural network (ANN) hyperparameter values obtained by genetic algorithm (GA) optimization were as follows: number of hidden neurons 1⁄4 18, LM parameter μ 1⁄4 0.4632, and maximum validation failures 1⁄4 9 for City 1; and number of hidden neurons 1⁄4 16, LM parameter μ 1⁄4 0.4307, and maximum validation failures 1⁄4 3 for City 2
As suggested by previous studies (e.g. Maidment & Miaou ; Bakker et al ; Gagliardi et al ), that the performances of UWD predictions vary depending on the size of the water distribution area
Summary
Forecasting urban water demand (UWD) is a crucial issue to ensure the better design, operation, and management of water distribution systems (WDSs). In the most recent applications of real-time control (RTC), knowledge of the near future fluctuations in consumption is required (e.g. Pascual et al ; Kang ; Doghri et al ). G. Shirkoohi et al | Short-term water demand predictions coupling ANN model and GA
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