Abstract
In view of the two key problems in hydrological mid-long term runoff forecasting-the selection of key forecasting factors and the construction of forecasting models, an analysis is made on, taking Danjiangkou Reservoir as an example, the basis of preliminarily identifying the sea-air physical factors such as atmospheric circulation, sea surface temperature and Southern Oscillation, et al. The rough set theory is used to establish the data decision table and reduce the factors, and the relevance vector machine method is adopted to establish the mid-long term runoff forecasting model based on reduced factor set. Meanwhile, this paper simulates and predicts the amount of runoff of the reservoir in September and October during the autumn floods from 1952 to 2008, and makes comparison with the model adopting support vector machine. The result shows that the relevance vector machine has better robustness and generalization performance. According to the standard of 20% annual variation, the simulation accuracy of September and October reaches 93.9% and 95.9%, respectively, and the accuracy of the trial forecasting is all up to standard. Moreover, this model better reflects the characteristics of ample flow period and low water period of the forecasting years.
Highlights
High-precision mid-long term hydrological forecasting plays an important role in the safety and flood control of reservoirs, effective drought relief, scientific arrangement of water resources scheduling, and improvement of hydropower generation stability and efficiency
At the beginning of the physical causes that affect the long-term runoff change process in the basin, finding the key predictors that effectively reflect mid-long term runoff changes, and developing a prediction method that fully expresses the relationship between predictors and mid-long term runoff are the key to improving the accuracy of mid-long term hydrological forecast
(2) Global 500hPa monthly average height reanalysis data provided by the US National Center for Environment Prediction (NCEP) and the US National Center for Atmospheric Research (NCAR)
Summary
High-precision mid-long term hydrological forecasting plays an important role in the safety and flood control of reservoirs, effective drought relief, scientific arrangement of water resources scheduling, and improvement of hydropower generation stability and efficiency. It is an indispensable component of efficient operation of reservoirs. At the beginning of the physical causes that affect the long-term runoff change process in the basin, finding the key predictors that effectively reflect mid-long term runoff changes, and developing a prediction method that fully expresses the relationship between predictors and mid-long term runoff are the key to improving the accuracy of mid-long term hydrological forecast. The case study of runoff forecast in the Danjiangkou Reservoir during autumn floods is carried out
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