Information Entropy-Based Hybrid Models Improve the Accuracy of Reference Evapotranspiration Forecast
文献类型: 外文期刊
第一作者: Qin, Anzhen
作者: Qin, Anzhen;Fan, Zhilong;Qin, Anzhen;Zhang, Liuzeng
作者机构:
期刊名称:ADVANCES IN METEOROLOGY ( 影响因子:2.9; 五年影响因子:2.8 )
ISSN: 1687-9309
年卷期: 2024 年 2024 卷
页码:
收录情况: SCI
摘要: Accurate forecasting of reference crop evapotranspiration (ET0) is vital for sustainable water resource management. In this study, four popularly used single models were selected to forecast ET0 values, including support vector regression, Bayesian linear regression, ridge regression, and lasso regression models, respectively. They all had advantages of low requirement of data input and good capability of data fitting. However, forecast errors inevitably existed in those forecasting models due to data noise or overfitting. In order to improve the forecast accuracy of models, hybrid models were proposed to integrate the advantages of the single models. Before the construction of hybrid models, each single model's weight was determined based on two weight determination methods, namely, the variance reciprocal and information entropy weighting methods. To validate the accuracy of the proposed hybrid models, 1-30 d forecast data from January 2 to February 1, 2022, were used as a test set in Xinxiang, North China Plain. The results confirmed the feasibility of the information entropy-based hybrid model. In detail, the information entropy model generated the mean absolute percentage errors of 11.9% or a decrease by 48.9% compared to the single and variance reciprocal hybrid models. Moreover, the model generated a correlation coefficient of 0.90 for 1-30 d ET0 forecasting or an increase by 13.6% compared to other models. The standard deviation and the root mean square error of the information entropy model were 1.65 mm center dot d-1 and 0.61 mm center dot d-1 or had a decrease by 16.4% and 23.7%. The maximum precision and the F1 score were 0.9618 and 0.9742 for the information entropy model. It was concluded that the information entropy-based hybrid model had the best midterm (1-30 d) ET0 forecasting performance in the North China Plain.
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