M. Hameed, Faidhalrahman Khaleel, M. Abed, Deiaaldeen Khaleel, M. Alomar
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引用次数: 2
摘要
随着全球气温上升,随着全球蒸发蒸腾速率的增加,部分水循环可能会因气候变化而加速。本文采用三种模式对西班牙圣泰拉站的日蒸散量进行了预测。这些模型分别是Hargreaves-Samani (HS)、modified Hargreaves-Samani (MHS)和Group Method of Data Handling neural network (GMDH-NN)。这些模型是使用非常有限的数据(温度参数)开发的。研究发现HS方法的预测效果最差,GMDH的预测效果优于MHS方法。此外,与MHS模型相比,GMDH-NN模型在95%的不确定性方面的预测提高了16.45%。该研究还表明,利用非常有限的气象参数有效地预测ETo是可能的。
An effective predictive model for daily evapotranspiration based on a limited number of meteorological parameters
As temperatures rise globally, parts of the water cycle will likely speed up due to climate change as evapotranspiration rates increase throughout the world. In this study, three models have been applied to predict the daily evapotranspiration (ETo) over Santaella station, which is located in Spain. The models are Hargreaves-Samani (HS), modified Hargreaves-Samani (MHS), and Group Method of Data Handling neural network (GMDH-NN). These models are developed using very limited data (temperature parameter). The study found that the HS approach provides the poorest prediction, while the GMDH performance was superior to the MHS. Furthermore, the GMDH-NN model showed a prediction improvement of 16.45% in terms of uncertainty at 95% compared to the MHS model. The study also showed that it is possible to efficiently predict the ETo using a very limited number of meteorological parameters.
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