Almeida Soares, Eduardo and Mota, Vania and Poucas, Ricardo and Leite, Daniel (2017) Cloud-based evolving intelligent method for weather time series prediction. In: 2017 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE) :. IEEE. ISBN 9781509060344
Full text not available from this repository.Abstract
This paper concerns the application of a cloud-based intelligent evolving method, namely, a typicality-and-eccentricity-based method for data analysis (TEDA), to predict monthly mean temperature in different cities of Brazil. Past values of maximum, minimum and mean monthly temperature, as well as previous values of exogenous variables such as cloudiness, rainfall and humidity were considered in the analysis. A non-parametric Spearman correlation based method is proposed to rank and select the most relevant features and time delays for a more accurate prediction. The datasets were obtained from weather stations located in main cities such as Sao Paulo, Manaus, and Porto Alegre. These cities are known to have particular weather characteristics. TEDA prediction results are compared with results provided by the evolving Takagi-Sugeno (eTS) and the extended Takagi-Sugeno (xTS) methods. In general, TEDA provided slightly more accurate predictions at the price of a higher computational cost.