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A platform for research: civil engineering, architecture and urbanism
A hybrid Wavelet-CNN-LSTM deep learning model for short-term urban water demand forecasting
Short-term water demand forecasting provides guidance on real-time water allocation in the water supply network, which help water utilities reduce energy cost and avoid potential accidents. Although a variety of methods have been proposed to improve forecast accuracy, it is still difficult for statistical models to learn the periodic patterns due to the chaotic nature of the water demand data with high temporal resolution. To overcome this issue from the perspective of improving data predictability, we proposed a hybrid Wavelet-CNN-LSTM model, that combines time-frequency decomposition characteristics of Wavelet Multi-Resolution Analysis (MRA) and implement it into an advanced deep learning model, CNN-LSTM. Four models — ANN, Conv1D, LSTM, GRUN — are used to compare with Wavelet-CNN-LSTM, and the results show that Wavelet-CNN-LSTM outperforms the other models both in single-step and multi-steps prediction. Besides, further mechanistic analysis revealed that MRA produce significant effect on improving model accuracy.
A hybrid Wavelet-CNN-LSTM deep learning model for short-term urban water demand forecasting
Short-term water demand forecasting provides guidance on real-time water allocation in the water supply network, which help water utilities reduce energy cost and avoid potential accidents. Although a variety of methods have been proposed to improve forecast accuracy, it is still difficult for statistical models to learn the periodic patterns due to the chaotic nature of the water demand data with high temporal resolution. To overcome this issue from the perspective of improving data predictability, we proposed a hybrid Wavelet-CNN-LSTM model, that combines time-frequency decomposition characteristics of Wavelet Multi-Resolution Analysis (MRA) and implement it into an advanced deep learning model, CNN-LSTM. Four models — ANN, Conv1D, LSTM, GRUN — are used to compare with Wavelet-CNN-LSTM, and the results show that Wavelet-CNN-LSTM outperforms the other models both in single-step and multi-steps prediction. Besides, further mechanistic analysis revealed that MRA produce significant effect on improving model accuracy.
A hybrid Wavelet-CNN-LSTM deep learning model for short-term urban water demand forecasting
Front. Environ. Sci. Eng.
Pu, Zhengheng (author) / Yan, Jieru (author) / Chen, Lei (author) / Li, Zhirong (author) / Tian, Wenchong (author) / Tao, Tao (author) / Xin, Kunlun (author)
2023-02-01
Article (Journal)
Electronic Resource
English
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