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Original scientific paper

https://doi.org/10.15233/gfz.2023.40.5

Application of the Random Forest method on the observation dataset for visibility nowcasting

David Sládek orcid id orcid.org/0000-0002-4418-3203 ; Department of Military Geography and Meteorology, University of Defence, Brno, Czech Republic *

* Corresponding author.


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page 75-102

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Abstract

Accurate visibility forecasting is essential for safe aircraft operations. This study examines how various configurations of the Random Forest model can enhance visibility predictions. Preprocessing techniques are employed, including correlation analysis to identify fundamental relationships in weather observations. Time-series data is transformed into a regular Data Frame to facilitate analysis. This study proposes a classification framework for organizing visibility data and phenomena, which is then used to develop a visibility forecast using the Random Forest method. The study also presents procedures for hyperparameter tuning, feature selection, data balancing, and accuracy evaluation for this dataset. The main outcomes are the Random Forest model parameters for a three-hour visibility forecast, along with an analysis of errors in low visibility forecasts. Additionally, models for one-hour forecasts and visibility forecasting under precipitation are also examined. The resulting models demonstrate a deterministic forecast accuracy of approximately 78%, with a false alarm rate of around 6%, providing a comprehensive overview of the capabilities of the Random Forest model for visibility forecasting. As anticipated, the model demonstrated limitations in accurately simulating fast radiative cooling or abrupt decreases in visibility caused by precipitation. Specifically, in relation to precipitation, the model achieved an accuracy of 79%, yet exhibited a false alarm rate of 19%. Additionally, this method sets a foundation for enhancing prediction accuracy through the inclusion of supplementary forecast data, while its implementation on real-world datasets expands the reach of machine learning techniques to the members of the meteorological community.

Keywords

Aviation meteorology; Visibility forecasting; Nowcasting; Landing forecast (trend); Machine learning; Random forest; Feature selection; Hyperparameters tuning

Hrčak ID:

308541

URI

https://hrcak.srce.hr/308541

Publication date:

31.7.2023.

Article data in other languages: croatian

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