Abstract
Floods have brought a great threat to the life and property of human beings. Under the premise of strengthening flood control engineering measures and following the strategic thinking of sustainable development, many achievements have been made in flood forecasting recently. However, due to the complexity of the traditional lumped model and distributed model, the hydrologic parameter calibration process is full of difficulties, leading to a long development cycle of a reasonable hydrologic prediction model. Even for modern data-driven models, the spatial distribution characteristics of the rainfall data are also not fully mined. Based on this situation, this paper abstracts the rainfall data into the graph structure data, uses remote sensing images to extract the elevation information, introduces the graph attention mechanism to extract the spatial characteristics of rainfall, and employs long-term and short-term memory (LSTM) network to fuse the spatial and temporal characteristics for flood prediction. Through well-designed experiments, the forecasting effect of flood peak value and flood arrival time is verified. Furthermore, compared with the LSTM model and BIGRU model without spatial feature extraction, the advantages of spatiotemporal feature fusion are highlighted. The specific performance is that the RMSE (the root means square error) and R2 (coefficient of determination) of the GA-RNN model have been significantly improved. Finally, we conduct experiments on the observed ten rainfall events in the history of the target watershed. According to the hydrological prediction specifications, the model can be evaluated as a Class B flood forecasting model.
Highlights
Floods are one of the most common natural disasters in the world
The comprehensive qualified rate and the R2 can be used to evaluate the grade of the flood forecasting model, and the evaluation rules are shown in Table 9 [37]
Aiming at the current situation of insufficient rainfall spatial feature mining in the existing flood forecasting data-driven models, this paper proposes a GA-RNN space-time feature fusion model
Summary
Floods are one of the most common natural disasters in the world. Compared with other natural disasters, the loss of people’s material property and the increase of social instability caused by floods have made them the most prominent in all kinds of disasters for a long time [1,2]. If there are no timely preventive measures for floods, it will lead to greater damage, such as causing traffic jams, plague, and other problems. Determining how to effectively reduce or avoid the disasters caused by floods is very necessary. The effect is very satisfactory, which points out to us that it is desirable and necessary to calculate the rainfall–runoff conversion from direct rainfall data.
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