4.5 Article

Long short-term memory models of water quality in inland water environments

Journal

WATER RESEARCH X
Volume 21, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.wroa.2023.100207

Keywords

Long short-term memory; Inland water; Water quality; Ensemble LSTM; Deep learning models

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This article reviews the application of LSTM models in water quality prediction, discussing issues such as computation time, prediction accuracy, and robustness. It explores the coupling of LSTM with other neural networks and the influence of static variables. The article also provides an outlook on the future of LSTM in hydrology research and application.
Water quality is substantially influenced by a multitude of dynamic and interrelated variables, including climate conditions, landuse and seasonal changes. Deep learning models have demonstrated predictive power of water quality due to the superior ability to automatically learn complex patterns and relationships from variables. Long short-term memory (LSTM), one of deep learning models for water quality prediction, is a type of recurrent neural network that can account for longer-term traits of time-dependent data. It is the most widely applied network used to predict the time series of water quality variables. First, we reviewed applications of a standalone LSTM and discussed its calculation time, prediction accuracy, and good robustness with process-driven numerical models and the other machine learning. This review was expanded into the LSTM model with data pre-processing techniques, including the Complete Ensemble Empirical Mode Decomposition with Adaptive Noise method and Synchrosqueezed Wavelet Transform. The review then focused on the coupling of LSTM with a convolutional neural network, attention network, and transfer learning. The coupled networks demonstrated their performance over the standalone LSTM model. We also emphasized the influence of the static variables in the model and used the transformation method on the dataset. Outlook and further challenges were addressed. The outlook for research and application of LSTM in hydrology concludes the review.

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