Water Level Simulation in River Network by Data Assimilation Using Ensemble Kalman Filter
APPLIED SCIENCES-BASEL(2023)
摘要
Featured Application The new data assimilation method based on the ensemble Kalman filter with the optimized parameters produces accurate water level predictions in river networks; it is thus a potential model for the real-time prediction of water levels in river networks in practice. Water level simulation for complex water river networks is complex, and existing forecasting models are mainly used for single-channel rivers. In this paper, we present a new data assimilation model based on the ensemble Kalman filter (EnKF) for accurate water level simulation in complex river networks. The EnKF-based data model was tested on simulated water level data from a river network hydrodynamic model and optimized through parameter analysis. It was then applied to a real mountainous single-channel river and plain river network and compared with a data assimilation model based on the extended Kalman filter (EKF). The results showed that the EnKF-based model, with a medium ensemble sample size of 100-150, normal observation noise of 0.0001-0.01 m, and a high standard deviation of 0.01-0.1 m, outperformed the EKF-based model, with a 49% reduction in simulation errors, a 45% reduction in calculation cost, and a 43% reduction in filtering time. Furthermore, the EnKF-based data assimilation model predicted the water level in the plain river network better than the mountainous single-channel river. Around 5 to 8 h were required for data assimilation; afterwards, the model could make accurate predictions covering 20 to 30 h. The EnKF-based data assimilation model offers a potential solution for water level predictions in river networks.
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关键词
water level simulation,ensemble Kalman filter,extended Kalman filter,data assimilation,water river network,parameter analysis
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