使用机器学习模拟森林地区的空气温度

WSEAS TRANSACTIONS ON COMPUTERS Pub Date : 2022-06-03 DOI:10.37394/23205.2022.21.23

Massoud Forooshani, A. Gegov, N. Pepin, M. Adda

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摘要

气温是衡量地球气候的基本指标，但只能在固定地点测量。利用卫星可以广泛测量地表温度。为了从乞力马扎罗山森林覆盖的山坡上测量到的地表温度(Ts)估计气温(Ta)，我们使用五种机器学习算法测试了四种具有独特输入集的模型。将每个模型的RMSE与基准模型进行比较。根据模型和算法的均方根误差(RMSE)进行排序，计算模型和算法的可靠性和一致性排序。确定了最佳模型和算法。将新模型的结果与基准模型进行了比较。所有模型在一致性排名上都优于基准模型，而4个模型中有3个在可靠性排名上优于基准模型。因此，机器学习改进了对森林环境中空气温度的估计。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Modeling Air Temperature in Forested Areas using Machine Learning

Air Temperature is a fundamental measure of the Earth’s climate but is only measured at fixed locations. Land surface temperature can be measured widely using satellites. To estimate air temperature (Ta) from the surface temperature (Ts) measured on the forested slopes of Kilimanjaro, four models with unique sets of inputs were tested using five machine learning algorithms. The RMSE for each model was compared with a benchmark model. Models and algorithms were ranked according to their RMSE (Root Mean Square Error) The models and algorithms reliability and consistency ranking were calculated. The best model and algorithm were determined. Novel models results were compared with the benchmark model. All models outperformed the benchmark model in the consistency ranking while three out of four models outperformed the benchmark model in the reliability ranking. Thus machine learning improves the estimation of air temperature in this forested environment.

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