A Systematic Analysis of Meteorological Parameters in Predicting Rainfall Events

A Systematic Analysis of Meteorological Parameters in Predicting Rainfall Events

Accurate rainfall prediction is of paramount significance across diverse sectors, particularly in agriculture, where accurate predictions play a pivotal role in effective resource management and decision-making. However, due to the complexity and dynamic structure of climate systems, rainfall predic...

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Bibliographic Details
Main Authors: Muhammad Salman Pathan, Pardhu Nadella, Yasin Ul Haq, Soumini Chaudhury, Jiantao Wu, Avishek Nag, Soumyabrata Dev
Format: Article
Language:English
Published: IEEE 2025-01-01
Series:IEEE Access
Subjects:
Rainfall prediction
meteorological features
feature correlation
feature importance
deep learning
machine learning
Online Access:https://ieeexplore.ieee.org/document/11014091/
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Summary:Accurate rainfall prediction is of paramount significance across diverse sectors, particularly in agriculture, where accurate predictions play a pivotal role in effective resource management and decision-making. However, due to the complexity and dynamic structure of climate systems, rainfall prediction is a difficult task. This study shifts the focus towards exploring correlations and feature selection in the context of rainfall prediction, contributing to a more sophisticated understanding of the process. By analyzing five years of weather data from three weather stations in the United States, Canada, and Ireland, the study delves into the interactions between meteorological features and rainfall occurrences. The use of a machine learning (ML)-based feature importance technique, which enables the identification of key meteorological features that significantly contribute to rainfall prediction, is central to the work. As a result, this method improves understanding of meteorological conditions, which act as accurate forecasters of rainfall outcomes and can help to develop accurate decision-support systems. The study also conducts a thorough assessment of prediction performance of various ML and deep learning (DL) techniques such as Classification and Regression Trees (CART), Support Vector Machine (SVM) and Dense Neural Networks (DNN).The findings show that the models using only the important meteorological features in the dataset perform better than using all the features. This rigorous examination also supports the selection of appropriate rainfall forecast models for specific use cases. Overall, this study increases our understanding of rainfall prediction by focusing on the investigation of correlations between meteorological indicators and the identification of key meteorological features using ML approaches, offering valuable insights for weather forecasting applications. This nuanced analysis contributes to the advancement of predictive modeling in the realm of rainfall forecasting, offering potential implications for decision-making across sectors reliant on precise weather forecasts.
ISSN:2169-3536

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