Artificial intelligence to predict soil temperatures by development of novel model

Mampitiya, Lakindu; Rozumbetov, Kenjabek; Rathnayake, Namal; Erkudov, Valery; Esimbetov, Adilbay; Arachchi, Shanika; Kantamaneni, Komali; Hoshino, Yukinobu; Rathnayake, Upaka

doi:10.1038/s41598-024-60549-x

Sci Rep

2024

DOI: 10.1038/s41598-024-60549-x

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Artificial intelligence to predict soil temperatures by development of novel model

Lakindu Mampitiya,

Kenjabek Rozumbetov,

Namal Rathnayake

et al.

Abstract: Soil temperatures at both surface and various depths are important in changing environments to understand the biological, chemical, and physical properties of soil. This is essential in reaching food sustainability. However, most of the developing regions across the globe face difficulty in establishing solid data measurements and records due to poor instrumentation and many other unavoidable reasons such as natural disasters like droughts, floods, and cyclones. Therefore, an accurate prediction model would fi… Show more

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Cited by 4 publications

References 52 publications

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Predicting the drag coefficient of coastal trees using Support Vector Machines and boosting ensemble models

Haghdoost,

Md Azamathulla

2024

Discov Water

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The effect of green belts on wave absorption is a critical aspect of coastal protection strategies. The effectiveness of green belts in wave absorption is influenced by factors such as the type of vegetation used, the density and width of the green belt, and the topography of the coastline. The current study aims to explore the performance of various intelligent tools, including SVM (Support Vector Machine), ABR (Ada Boost Regression), ETR (Extra Trees Regression), GBR (Gradient Boosting Regression), and RF (Random Forest), to forecast drag coefficients of coastal trees (C D ). In this direction, four dimensionless parameters of relative wave height (H/d), vegetation density (D), coastal shoreline slope (S), and wave propagation velocity (u/ √ E∕ ) were assumed as input parameters, and C D was considered as the target. To evaluate the performance of developed soft computing models, various statistical indicators and graphical plots including Violin, Tylor, and Scatter were applied. The results revealed that the ETR method outperforms existing machine learning techniques with statistical results of R 2 = 0.996, RMSE = 0.003, MAE = 0.002, and SI = 0.014. In addition, the Tylor diagram indicates that the distance index obtained using the ETR model exhibited a high alignment with actual data, especially in comparison with alternative tools. Article highlights• The drag coefficient of coastal trees (C d ) is predestined.• SVM (Support Vector Machine), ABR (Ada Boost Regression), ETR (Extra Trees Regression), GBR (Gradient Boosting Regression), and RF (Random Forest) were applied. • ETR showed better prediction accuracy and higher prediction reliability than SVM, RF, ABR, and GBR.

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Predicting the drag coefficient of coastal trees using Support Vector Machines and boosting ensemble models

Haghdoost,

Md Azamathulla

2024

Discov Water

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Earth-sheltered buildings: A review of modeling, energy conservation, daylighting, and noise aspects

Mihalakakou,

Paravantis,

Nikolaou

et al. 2024

Journal of Cleaner Production

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An efficient computational investigation on accurate daily soil temperature prediction using boosting ensemble methods explanation based on SHAP importance analysis

Alizamir,

Wang,

Ikram

et al. 2024

Results in Engineering

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Artificial intelligence to predict soil temperatures by development of novel model

Cited by 4 publications

References 52 publications

Predicting the drag coefficient of coastal trees using Support Vector Machines and boosting ensemble models

Predicting the drag coefficient of coastal trees using Support Vector Machines and boosting ensemble models

Earth-sheltered buildings: A review of modeling, energy conservation, daylighting, and noise aspects

An efficient computational investigation on accurate daily soil temperature prediction using boosting ensemble methods explanation based on SHAP importance analysis

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