Deep learning for daily potential evapotranspiration using a HS-LSTM approach
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- @Article{YAN:2023:atmosres,
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author = "Xiaohui Yan and Na Yang and Ruigui Ao and
Abdolmajid Mohammadian and Jianwei Liu and Huade Cao and
Penghai Yin",
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title = "Deep learning for daily potential evapotranspiration
using a {HS-LSTM} approach",
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journal = "Atmospheric Research",
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volume = "292",
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pages = "106856",
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year = "2023",
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ISSN = "0169-8095",
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DOI = "doi:10.1016/j.atmosres.2023.106856",
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URL = "https://www.sciencedirect.com/science/article/pii/S0169809523002533",
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keywords = "genetic algorithms, genetic programming, Potential
evapotranspiration, ANN, Machine learning, Long
short-term memory neural network, Hargreaves-Samani",
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abstract = "Accurate estimation of potential evapotranspiration
(ET0) is important for the sound design of irrigation
schedules, management of water resources, assessment of
hydrological drought, and research on atmospheric
variations. The present study proposed a novel deep
learning (DL) approach for daily ET0 estimations with
limited daily climate data: HS- LSTM. This approach was
constructed based on a classic ET0 model and a long
short-term memory neural network (LSTM). Specifically,
the Hargreaves-Samani (HS) model was employed as the
classic model, and the predictors were restricted to
the daily maximum and minimum air temperature data.
Ground truth data for ET0 were employed to train,
validate, and test the models. Traditional machine
learning (ML) algorithms comprising adaptive
neuro-fuzzy inference system (ANFIS), genetic
programming (GP), multi-gene genetic programming
(MGGP), and one-dimensional CNN (1D-CNN), as well as
the HS-ML models (HS-ANFIS, HS-GP, HS-MGGP, HS-1D-CNN),
were also established and assessed for daily ET0
estimations. Compared to the other tested approaches,
the errors of the HS-LSTM technique significantly
decreased, demonstrating that the novel HS-LSTM
approach significantly outperformed the other
techniques beyond the study area (in Songliao Basin,
Northeast China, which is a semi-humid zone with
temperate continental climate). The developed models
can then be used to estimate future ET0 with only air
temperature forecasts, which can be readily obtained
from public weather forecasts. The present study
provides a new and promising strategy that can provide
more accurate estimations of daily ET0 with limited
meteorological data, along with significant
implications for enhancing atmospheric research",
- }
Genetic Programming entries for
Xiaohui Yan
Na Yang
Ruigui Ao
Abdolmajid Mohammadian
Jianwei Liu
Huade Cao
Penghai Yin
Citations