Abstract
Rivers carry suspended sediments along with their flow. These sediments deposit at different places depending on the discharge and course of the river. However, the deposition of these sediments impacts environmental health, agricultural activities, and portable water sources. Deposition of suspended sediments reduces the flow area, thus affecting the movement of aquatic lives and ultimately leading to the change of river course. Thus, the data of suspended sediments and their variation is crucial information for various authorities. Various authorities require the forecasted data of suspended sediments in the river to operate various hydraulic structures properly. Usually, the prediction of suspended sediment concentration (SSC) is challenging due to various factors, including site-related data, site-related modelling, lack of multiple observed factors used for prediction, and pattern complexity.Therefore, to address previous problems, this study proposes a Long Short Term Memory model to predict suspended sediments in Malaysia's Johor River utilizing only one observed factor, including discharge data. The data was collected for the period of 1988–1998. Four different models were tested, in this study, for the prediction of suspended sediments, which are: ElasticNet Linear Regression (L.R.), Multi-Layer Perceptron (MLP) neural network, Extreme Gradient Boosting, and Long Short-Term Memory. Predictions were analysed based on four different scenarios such as daily, weekly, 10-daily, and monthly. Performance evaluation stated that Long Short-Term Memory outperformed other models with the regression values of 92.01%, 96.56%, 96.71%, and 99.45% daily, weekly, 10-days, and monthly scenarios, respectively.
Highlights
The purpose of this study is to explore the capability and demonstrate the effectiveness of a model based on long short-term memory (LSTM) neural networks in predicting suspended sediment load (SSL) in the Johor River basin, given a time series of historical data relating to suspended sediment and river streamflow
The first experiment was aimed to forecast the sediment for one day ahead using four machine learning models, including ElasticNet Linear Regression (ElasticNet LR)[38], Multilayer Perceptron Neural Network (MLP NN), Extreme Gradient Boosting (XGB)[47], and Long Short-Term Memory (LSTM)
This study proposes an LSTM model for the prediction of suspended sediment in the Johor river in Malaysia
Summary
We utilized LSTM, which was found to solve the vanishing p roblem[31] and improve performance by considering a large number of sediment and discharge values collected from previous days, weeks, 10-days, and months. The purpose of this study is to explore the capability and demonstrate the effectiveness of a model based on long short-term memory (LSTM) neural networks in predicting suspended sediment load (SSL) in the Johor River basin, given a time series of historical data relating to suspended sediment and river streamflow. The observed and predicted SSL values are inspected comprehensively through statistical analyses. After predicting SSL, the performance of the LSTM model is examined and evaluated using several selected performance indicators to determine the efficacy of LSTM in the field of SSL prediction
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