A33M-0401
Short-term forecasting of meteorological time series using Nonparametric Functional Data Analysis (NPFDA)

Wednesday, 16 December 2015
Poster Hall (Moscone South)
Stelian Curceac1, Camille Ternynck2 and Taha Ouarda1,3, (1)Masdar Institute of Science and Technology, Abu Dhabi, United Arab Emirates, (2)University of Lille 2, Health, Lille, France, (3)Masdar Institute of Science and Technology, iWATER, Institute Centre for Water Advanced Technology & Environmental Research, Abu Dhabi, United Arab Emirates
Abstract:
Over the past decades, a substantial amount of research has been conducted to model and forecast climatic variables. In this study, Nonparametric Functional Data Analysis (NPFDA) methods are applied to forecast air temperature and wind speed time series in Abu Dhabi, UAE. The dataset consists of hourly measurements recorded for a period of 29 years, 1982-2010. The novelty of the Functional Data Analysis approach is in expressing the data as curves. In the present work, the focus is on daily forecasting and the functional observations (curves) express the daily measurements of the above mentioned variables. We apply a non-linear regression model with a functional non-parametric kernel estimator. The computation of the estimator is performed using an asymmetrical quadratic kernel function for local weighting based on the bandwidth obtained by a cross validation procedure. The proximities between functional objects are calculated by families of semi-metrics based on derivatives and Functional Principal Component Analysis (FPCA). Additionally, functional conditional mode and functional conditional median estimators are applied and the advantages of combining their results are analysed. A different approach employs a SARIMA model selected according to the minimum Akaike (AIC) and Bayessian (BIC) Information Criteria and based on the residuals of the model. The performance of the models is assessed by calculating error indices such as the root mean square error (RMSE), relative RMSE, BIAS and relative BIAS. The results indicate that the NPFDA models provide more accurate forecasts than the SARIMA models.

Key words: Nonparametric functional data analysis, SARIMA, time series forecast, air temperature, wind speed