利用气象数据和 ML 技术预测天气模式

Q3 Engineering

EAI Endorsed Transactions on Energy Web Pub Date : 2024-04-05 DOI:10.4108/ew.5648

Saksham Mathur, Sanjeev Kumar, Tanupriya Choudhury

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引用次数: 0

摘要

在现代天气预报领域，准确的分类至关重要，它影响着农业、航空和水资源管理等关键部门。本研究介绍了一种天气预报模型，该模型采用了两种有影响力的分类器随机森林和基于梯度提升的技术，这两种分类器均使用 Scikit-learn 库实现。评估基于关键指标，包括 F1 分数、准确率、召回率和精确度，其中梯度提升技术是降水预测的最佳选择。本研究借鉴了之前的研究，考察了随机森林回归、梯度提升回归和径向基函数神经网络在降水预测方面的性能，这些研究表明随机森林算法在准确性和速度方面都更胜一筹。组合方法，特别是投票分类器（随机森林和梯度提升的融合）的表现优于单个模型，为推进天气分类提供了一个前景广阔的途径。

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Prognostication of Weather Patterns using Meteorological Data and ML Techniques

In the field of modern weather prediction, the accurate classification is essential, impacting critical sectors such as agriculture, aviation, and water resource management. This research presents a weather forecasting model employing two influential classifiers random forest and technique based on gradient boosting, both implemented using the Scikit-learn library. Evaluation is based on key metrics including F1 score, accuracy, recall, and precision, with Gradient Boosting emerging as the superior choice for precipitation prediction. The study examines the performance of Random Forest Regression, Gradient Boosting Regression, and Radial Basis Function Neural Network in forecasting precipitation, drawing on prior research that demonstrated the superiority of the Random Forest algorithm in terms of accuracy and speed. Ensemble methods, particularly the Voting Classifier, a fusion of Random Forest and Gradient Boosting, outperform individual models, offering a promising avenue for advancing weather classification.

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来源期刊

EAI Endorsed Transactions on Energy Web Energy-Energy Engineering and Power Technology

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

10 weeks

期刊介绍： With ICT pervading everyday objects and infrastructures, the ‘Future Internet’ is envisioned to undergo a radical transformation from how we know it today (a mere communication highway) into a vast hybrid network seamlessly integrating knowledge, people and machines into techno-social ecosystems whose behaviour transcends the boundaries of today’s engineering science. As the internet of things continues to grow, billions and trillions of data bytes need to be moved, stored and shared. The energy thus consumed and the climate impact of data centers are increasing dramatically, thereby becoming significant contributors to global warming and climate change. As reported recently, the combined electricity consumption of the world’s data centers has already exceeded that of some of the world''s top ten economies. In the ensuing process of integrating traditional and renewable energy, monitoring and managing various energy sources, and processing and transferring technological information through various channels, IT will undoubtedly play an ever-increasing and central role. Several technologies are currently racing to production to meet this challenge, from ‘smart dust’ to hybrid networks capable of controlling the emergence of dependable and reliable green and energy-efficient ecosystems – which we generically term the ‘energy web’ – calling for major paradigm shifts highly disruptive of the ways the energy sector functions today. The EAI Transactions on Energy Web are positioned at the forefront of these efforts and provide a forum for the most forward-looking, state-of-the-art research bringing together the cross section of IT and Energy communities. The journal will publish original works reporting on prominent advances that challenge traditional thinking.