An extensive evaluation of seven machine learning methods for rainfall prediction in weather derivatives

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@Article{Cramer:2017:ESA,

• author = "Sam Cramer and Michael Kampouridis and Alex A. Freitas and Antonis K. Alexandridis",
• title = "An extensive evaluation of seven machine learning methods for rainfall prediction in weather derivatives",
• journal = "Expert Systems with Applications",
• year = "2017",
• volume = "85",
• pages = "169--181",
• month = "1 " # nov,
• keywords = "genetic algorithms, genetic programming, Weather derivatives, Rainfall, Machine learning",
• ISSN = "0957-4174",
• DOI = "doi:10.1016/j.eswa.2017.05.029",
• URL = "http://www.sciencedirect.com/science/article/pii/S0957417417303457",
• size = "13 pages",
• abstract = "Regression problems provide some of the most challenging research opportunities in the area of machine learning, and more broadly intelligent systems, where the predictions of some target variables are critical to a specific application. Rainfall is a prime example, as it exhibits unique characteristics of high volatility and chaotic patterns that do not exist in other time series data. This work's main impact is to show the benefit machine learning algorithms, and more broadly intelligent systems have over the current state-of-the-art techniques for rainfall prediction within rainfall derivatives. We apply and compare the predictive performance of the current state-of-the-art (Markov chain extended with rainfall prediction) and six other popular machine learning algorithms, namely: Genetic Programming, Support Vector Regression, Radial Basis Neural Networks, M5 Rules, M5 Model trees, and k-Nearest Neighbours. To assist in the extensive evaluation, we run tests using the rainfall time series across data sets for 42 cities, with very diverse climatic features. This thorough examination shows that the machine learning methods are able to outperform the current state-of-the-art. Another contribution of this work is to detect correlations between different climates and predictive accuracy. Thus, these results show the positive effect that machine learning-based intelligent systems have for predicting rainfall based on predictive accuracy and with minimal correlations existing across climates.",

}

Genetic Programming entries for Sam Cramer Michael Kampouridis Alex Alves Freitas Antonis K Alexandridis

Citations