Abstract
This study attempted to combine SSA (Singular Spectrum Analysis) with other methods to improve the performance of forecasting model for time series with a complex pattern. This work discussed two modifications of TLSAR (Two-Level Seasonal Autoregressive) modeling by considering the SSA decomposition results, namely TLSNN (Two-Level Seasonal Neural Network) and TLCSNN (Two-Level Complex Seasonal Neural Network). TLSAR consisted of a linear trend, harmonic, and autoregressive component. In contrast, the two proposed hybrid approaches consisted of flexible trend function, harmonic, and neural networks. Trend and harmonic function were considered as the deterministic part identified based on SSA decomposition. Meanwhile, NN was intended to handle the nonlinearity relationship in the stochastic part. These two SSA-based hybrid models were contemplated to be more flexible than TLSAR and more applicable to the series with an intricate pattern. The experimental studies to the monthly accidental deaths in USA and daily electricity load Jawa-Bali showed that the proposed SSA-based hybrid model reduced RMSE for the testing data from that obtained by TLSAR model up to 95%.
Highlights
Decomposition is the basis for modeling complex seasonal time series
Soares and Medeiros [1] have discussed TLSAR model that consists of two parts, deterministic and stochastic component
RESEARCH METHOD The SSA-based hybrid model is defined by the method that combines deterministic and stochastic component, where the deterministic component is obtained based on the SSA decomposition result
Summary
A time series is said to have a complex seasonal pattern when it has trend and multiple seasonal patterns, perhaps with non-integer period. This kind of series has been intriguing researchers to study and develop methodologies to improve the forecast accuracy. Soares and Medeiros [1] have discussed TLSAR (two level seasonal autoregressive) model that consists of two parts, deterministic and stochastic component. This method is a simple statistical model that combines linear trend, trigonometry and the autoregressive model. It unable to take into account the time varying component
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