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Neural Processing Letters

Erschienen in:

01.04.2015

Recurrent Multiplicative Neuron Model Artificial Neural Network for Non-linear Time Series Forecasting

verfasst von: Erol Egrioglu, Ufuk Yolcu, Cagdas Hakan Aladag, Eren Bas

Erschienen in: Neural Processing Letters | Ausgabe 2/2015

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Abstract

Artificial neural networks (ANN) have been widely used in recent years to model non-linear time series since ANN approach is a responsive method and does not require some assumptions such as normality or linearity. An important problem with using ANN for time series forecasting is to determine the number of neurons in hidden layer. There have been some approaches in the literature to deal with the problem of determining the number of neurons in hidden layer. A new ANN model was suggested which is called multiplicative neuron model (MNM) in the literature. MNM has only one neuron in hidden layer. Therefore, the problem of determining the number of neurons in hidden layer is automatically solved when MNM is employed. Also, MNM can produce accurate forecasts for non-linear time series. ANN models utilized for non-linear time series have generally autoregressive structures since lagged variables of time series are generally inputs of these models. On the other hand, it is a well-known fact that better forecasts for real life time series can be obtained from models whose inputs are lagged variables of error. In this study, a new recurrent multiplicative neuron neural network model is firstly proposed. In the proposed method, lagged variables of error are included in the model. Also, the problem of determining the number of neurons in hidden layer is avoided when the proposed method is used. To train the proposed neural network model, particle swarm optimization algorithm was used. To evaluate the performance of the proposed model, it was applied to a real life time series. Then, results produced by the proposed method were compared to those obtained from other methods. It was observed that the proposed method has superior performance to existing methods.

Vorheriger Artikel Exponential Convergence of a SICNN with Leakage Delays and Continuously Distributed Delays of Neutral Type

Nächster Artikel Amplitude and Frequency Modulations with Cellular Neural Networks

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Aladag CH (2011) A new architecture selection method based on tabu search for artificial neural networks. Expert Syst Appl 38:3287–3293CrossRef

Aladag CH, Egrioglu E (eds) (2012) Advances in time series forecasting. Bentham Science Publishers Ltd., Oak Park, USA. http://www.benthamscience.com/ebooks/9781608053735/index.htm. Accessed 24 Jan 2014

Aladag CH, Egrioglu E, Gunay S, Basaran MA (2010) Improving weighted information criterion by using optimization. J Comput Appl Math 233:2683–2687CrossRefMATHMathSciNet

Aladag CH, Yolcu U, Egrioglu E (2013) A new multiplicative seasonal neural network model based on particle swarm optimization. Neural Process Lett 37(3):251–262CrossRef

Box GEP, Jenkins GM (1976) Time series analysis: forecasting and control. Holden-Day, San FranciscoMATH

BuHamra S, Smaoui N, Gabr M (2003) The Box–Jenkins analysis and neural networks: prediction and time series modeling. Appl Math Model 27:805–815CrossRefMATH

Crone S, Kourentzes N (2010) Naive support vector regression and multilayer perceptron benchmarks for the 2010 neural network grand competition (NNGC) on time series prediction. In: Proceedings of the international joint Conference on neural networks, IJCNN’10, Barcelona, IEEE, New York

Crone S, Nikolopoulos K, Hibon M (2011) New evidence on the accuracy of computational intelligence for monthly time series prediction—results of the NN3 forecasting competition. Int J Forecast 27(3):635–660CrossRef

Egrioglu E, Aladag CH, Gunay S (2008) A new model selection strategy in artificial neural network. Appl Math Comput 195:591–597CrossRefMATHMathSciNet

10.

Egrioglu E, Aladag CH, Yolcu U, Başaran A, Uslu VR (2009) A new hybrid approach based on SARIMA and partial high order bivariate fuzzy time series forecasting model. Expert Syst Appl 36:7424–7434CrossRef

11.

Elman JL (1990) Finding structure in time. Cogn Sci 14(2):179–211CrossRef

12.

Giles CL, Lawrence S, Tsoi AC (2001) Noisy time series prediction using recurrent neural networks and grammatical inference. Mach Learn 44(1/2):161–183CrossRefMATH

13.

Janacek G (2001) Practical time series. Oxford University Press Inc., New YorkMATH

14.

Jordan MI (1986) Serial order: a parallel distributed processing approach (Tech. Rep. No. 8604). Institute for Cognitive Science, University of California, San Diego

15.

Kennedy J, Eberhart R (1995) Particle swarm optimization. In: Proceedings of IEEE international conference on neural networks. IEEE Press, Piscataway, pp 1942–1948

16.

Khashei M, Bijari M (2010) An artificial network (p, d, q) model for time series forecasting. Expert Syst Appl 37:479–489CrossRef

17.

Lin T, Horne BG, Giles CL (1998) How embedded memory in recurrent neural network architectures helps learning long-term temporal dependencies. Neural Netw 11(5):861–868CrossRef

18.

Yadav RN, Kalra PK, John J (2007) Time series prediction with single multiplicative neuron model. Appl Soft Comput 7:1157–1163CrossRef

19.

Yolcu U, Aladag CH, Egrioglu E (2013) A new linear & nonlinear artificial neural network model for time series forecasting. Decis Support Syst 54:1340–1347CrossRef

20.

Zemouri R, Patic PC (2010) Prediction error feedback for time series prediction: a way to improve the accuracy of predictions. In: Grigoriu M, Mladenov V, Bulucea CA, Martin O, Mastorakis N (eds) Proceedings of the 4th conference on European computing conference (ECC’10), Scientific World, Academy Engineering, Society (WSEAS), Stevens Point, WI, USA, pp 58–62

21.

Zhang G (2003) Time series forecasting using a hybrid ARIMA and neural network model. Neurocomputing 50:159–175CrossRefMATH

22.

Zhang G, Patuwo BE, Hu YM (1998) Forecasting with artificial neural networks: the state of the art. Int J Forecast 14:35–62CrossRef

Titel: Recurrent Multiplicative Neuron Model Artificial Neural Network for Non-linear Time Series Forecasting
verfasst von: Erol Egrioglu
Ufuk Yolcu
Cagdas Hakan Aladag
Eren Bas
Publikationsdatum: 01.04.2015
Verlag: Springer US
Erschienen in: Neural Processing Letters / Ausgabe 2/2015
Print ISSN: 1370-4621
Elektronische ISSN: 1573-773X
DOI: https://doi.org/10.1007/s11063-014-9342-0

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