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Granular Computing
Erschienen in: Granular Computing 1/2024

01.03.2024 | ORIGINAL PAPER

New deep recurrent hybrid artificial neural network for forecasting seasonal time series

verfasst von: Ozlem Karahasan, Eren Bas, Erol Egrioglu

Erschienen in: Granular Computing | Ausgabe 1/2024

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Abstract

The simple recurrent artificial neural network is a deep artificial neural network frequently used in the literature for solving forecasting problems. It is preferred due to its low number of parameters. At the same time, the simple exponential smoothing method, which is one of the classical forecasting methods, is also used in the literature for solving forecasting problems. Both methods draw attention to their performance in solving forecasting problems. In this study, a hybrid approach is proposed in which these two methods, which perform very well in the forecasting problems of time series with seasonal components, are used together. The architecture of the network uses the forecasts during the seasonality period as recurrent. In the training of the proposed hybrid neural network, training algorithms based on particle swarm optimization algorithm and sine cosine optimization algorithms are proposed. The proposed training algorithms use a restart strategy to reduce the variability caused by random initial weights and to make the results more stable. In the recommended training algorithm, an early stopping condition is applied to solve the overfitting problem based on proportional error. The performance of this proposed method is analyzed using many seasonal time series and compared with both classical forecasting methods and deep and shallow artificial neural network methods.
Vorheriger Artikel Multi-attribute decision-making with (p, q)-rung orthopair fuzzy sets
Nächster Artikel Fuzzy clustering based on distance metric under intuitionistic fuzzy environment

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Metadaten
Titel
New deep recurrent hybrid artificial neural network for forecasting seasonal time series
verfasst von
Ozlem Karahasan
Eren Bas
Erol Egrioglu
Publikationsdatum
01.03.2024
Verlag
Springer International Publishing
Erschienen in
Granular Computing / Ausgabe 1/2024
Print ISSN: 2364-4966
Elektronische ISSN: 2364-4974
DOI
https://doi.org/10.1007/s41066-023-00445-3

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