Improving the estimation of atmospheric water vapor pressure using interpretable long short-term memory networks
Author:
Funder
Office of Science
Biological and Environmental Research
U.S. Department of Energy
Publisher
Elsevier BV
Reference47 articles.
1. Prediction of relative humidity in a high elevated basin of western karakoram by using different machine learning models;Adnan;Weather Forecast.,2021
2. Application for extracting and exploring analysis ready samples (AppEEARS) (manual),2023
3. Using field observations to inform thermal hydrology models of permafrost dynamics with ATS (v0.83);Atchley;Geosci. Model Dev.,2015
4. A new wavelet conjunction approach for estimation of relative humidity: wavelet principal component analysis combined with ANN;Bayatvarkeshi;Neural Comput. Appl.,2020
5. Dynamic sliding window-based long short-term memory model development for pan evaporation forecasting;Bhattarai;Knowl. Based Eng. Sci.,2023
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