Abstract
Sediment in river is usually transported during extreme events related to intense rainfall and high river flows. The conventional means of collecting data in such events are risky and costly compared to water discharge measurements. Hence, the lack of sediment data has prompted the use of sediment rating curves (SRC). The aim of this study is to explore the abilities of artificial neural networks (ANNs) in advancing the precision of stream flow-suspended discharge relationships during storm events in the Shiwen River, located in southern Taiwan. The ANNs used were multilayer perceptrons (MLP), the coactive neurofuzzy inference system model (CANFISM), time lagged recurrent networks (TLRN), fully recurrent neural networks (FRNN) and the radial basis function (RBF). A comparison is made between SRC and the ANNs. Hourly based water and sediment discharge during 8 storms were manually collected and used as inputs for the SRC and the ANNs. Results have shown that the ANN models were superior in reproducing hourly sediment discharge compared to SRC. The findings further suggest that MLP can provide the most accurate estimates of sediment discharge, (R2 of 0.903) compared to CANFISM, TLRN, FRNN and RBF. SRC had the lowest R2 (0.765), and resulted in underestimations of peak sediment discharge (−47%).
Highlights
Taiwan is located in a sub-tropic area and is often subjected to several storms and typhoons during a monsoon season (June to August)
Correct estimation of sediment discharge and sediment load is an essential component in river management
The key objective of this study was to evaluate the accuracy of artificial neural networks in estimating sediment discharge in rivers during storm events
Summary
Taiwan is located in a sub-tropic area and is often subjected to several storms and typhoons during a monsoon season (June to August). The average annual rainfall ranges from 2500 mm/year up to 3000–5000 mm/year in hilly regions. These typhoons induce severe hazards in the form of flooding [1,2]. In comparison to global rivers, the ones in Taiwan have the largest discharge per unit of drainage area, steepest slopes and a minute concentration time [3]. The poor geologic formations (fragile sandstones) of the watersheds, especially in the upstream sections, result in heavy deposition in the downstream regions due to the extreme rainfall events. Taiwanese rivers are among the highest in the world in sediment concentrations [4]
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