Cognitive computing models for estimation of reference evapotranspiration: A review
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- @Article{HEBBALAGUPPAEKRISHNASHETTY:2021:CSR,
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author = "Pradeep {Hebbalaguppae Krishnashetty} and
Jasma Balasangameshwara and Sheshshayee Sreeman and
Sujeet Desai and Archana {Bengaluru Kantharaju}",
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title = "Cognitive computing models for estimation of reference
evapotranspiration: A review",
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journal = "Cognitive Systems Research",
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volume = "70",
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pages = "109--116",
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year = "2021",
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ISSN = "1389-0417",
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DOI = "doi:10.1016/j.cogsys.2021.07.012",
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URL = "https://www.sciencedirect.com/science/article/pii/S1389041721000620",
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keywords = "genetic algorithms, genetic programming, Crop water
requirements, Irrigation system, Artificial neural
networks, Support vector machine",
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abstract = "Irrigation practices can be advanced by the aid of
cognitive computing models. Repeated droughts,
population expansion and the impact of global warming
collectively impose rigorous restrictions over
irrigation practices. Reference evapotranspiration
(ET0) is a vital factor to predict the crop water
requirements based on climate data. There are many
techniques available for the prediction of ET0. An
efficient ET0 prediction model plays an important role
in irrigation system to increase water productivity. In
the present study, a review has been carried out over
cognitive computing models used for the estimation of
ET0. Review exhibits that artificial neural network
(ANN) approach outperforms support vector machine (SVM)
and genetic programming (GP). Second order neural
network (SONN) is the most promising approach among ANN
models",
- }
Genetic Programming entries for
Pradeep Hebbalaguppae Krishnashetty
Jasma Balasangameshwara
Sheshshayee Sreeman
Sujeet Desai
Archana Bengaluru Kantharaju
Citations