Please use this identifier to cite or link to this item: http://repositorio.ufla.br/jspui/handle/1/41596
Title: Ensemble of evolving optimal granular experts, OWA aggregation, and time series prediction
Keywords: Evolving fuzzy systems
Ensemble learning
Aggregation functions
Granular computing
Weather time series prediction
Sistema fuzzy
Funções de agregação
Computação granular
Previsão de séries temporais
Estações meteorológicas
Issue Date: Dec-2019
Publisher: Elsevier B.V.
Citation: LEITE, D. F.; ŠKRJANC, I. Ensemble of evolving optimal granular experts, OWA aggregation, and time series prediction. Information Sciences, [S.I.], v. 504, p. 95-112, Dec. 2019.
Abstract: This paper presents an online-learning ensemble framework for nonstationary time series prediction. Optimal granular fuzzy rule-based models with different objective functions and constraints are evolved from data streams. Evolving optimal granular systems (eOGS) consider multiobjective optimization, the specificity of information, model compactness, and variability and coverage of the data within the process of modeling data streams. Forecasts of individual base eOGS models are combined using averaging aggregation functions: ordered weighted averaging (OWA), weighted arithmetic mean, median, and linear non-inclusive centered OWA. Some aggregation functions use specific weights for the relevance of the base models and exclude extreme values and outliers. The weights of other aggregation functions are adapted over time based on a quadratic programming problem and the data within a sliding window. This paper investigates whether an online-learning ensemble can outperform individual eOGS models, and which aggregation function provides the most accurate forecasts. Real multivariate weather time series, particularly time series of daily mean temperature, air humidity, and wind speed from different weather stations, such as Paris–Orly, Frankfurt–Main, Reykjavik, and Oslo–Blindern, are used for evaluation. The results show that ensemble schemes outperform individual models. The proposed linear non-inclusive centered OWA function provided the most accurate numerical predictions.
URI: https://www.sciencedirect.com/science/article/pii/S0020025519306590#!
http://repositorio.ufla.br/jspui/handle/1/41596
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