A novel operational water quality mobile prediction system with LSTM-Seq2Seq model
Lizi Xie (China University of Geosciences, Wuhan, Tianjin University)
Yanxin Zhao (Chinese Academy for Environmental Planning)
Pan Fang (China University of Geosciences, Wuhan)
Meiling Cheng (TU Delft - Civil Engineering & Geosciences)
Zhuo Chen (China University of Geosciences, Wuhan, Tianjin University)
Yonggui Wang (China University of Geosciences, Wuhan, Tianjin University)
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Abstract
An adequate water quality prediction mobile system is crucial for real-time, proactive, and convenient water environment monitoring through mobile devices to reduce or prevent water environmental threats. After exploring the feasibility and superiority of the LSTM-seq2seq model for predicting various water quality indicators, the optimal time step range for different length predictions was proposed. To verify the generalizability and reusability of the model, the performance differences of migrating models was investigated. Based on the entire process, we have developed a cost-effective, widely applicable, and sustainable operational prediction system framework. It was successfully applied in the Huangshui River Basin for two years. Results indicated that the model can achieve an NSE of above 0.5 for indicators with high coefficient of variation and above 0.75 for more stable indicators. When carrying out transfer applications, the model can achieve an NSE performance of above 0.5 for most sites in short to medium-term forecasting.