Abstract
Neural networks has become an important method for time series forecasting. There is increasing interest in using neural networks to model and forecast time series. This chapter provides a review of some recent developments in time series forecasting with neural networks, a brief description of neural networks, their advantages over traditional forecasting models, and some recent applications. Several important data and modeling issues for time series forecasting are highlighted. In addition, recent developments in several methodological areas such as seasonal time series modeling, multi-period forecasting, and the ensemble method are reviewed.
This is a preview of subscription content, log in via an institution.
Buying options
Tax calculation will be finalised at checkout
Purchases are for personal use only
Learn about institutional subscriptionsReferences
Abdel-Aal RE (2008) Univariate modeling and forecasting of monthly energy demand time series using abductive and neural networks. Comput Ind Eng 54:903–917
Aburto L, Weber R (2007) Improved supply chain management based on hybrid demand forecasts. Appl Soft Comput 7(1):136–144
Adya M, Collopy F (1998) How effective are neural networks at forecasting and prediction? A review and evaluation. J Forecasting 17:481–495
Ang A, Piazzesi M, Wei M (2006) What does the yield curve tell us about GDP growth? J Econometrics 131:359–403
Armano G, Marchesi M, Murru A (2005) A hybrid genetic-neural architecture for stock indexes forecasting. Info Sci 170(1):3–33
Armstrong JS (2001) Principles of forecasting: A handbook for researchers and practitioners. Kluwer, Boston, MA
Ashley R (2003) Statistically significant forecasting improvements: how much out-of-sample data is likely necessary? Int J Forecasting 19(2):229–239
Aslanargun A, Mammadov M, Yazici B, Yolacan S (2007) Comparison of ARIMA, neural networks and hybrid models in time series: tourist arrival forecasting. J Stat Comput Simulation 77(1):29–53
Atiya AF, El-Shoura SM, Shaheen SI, El-Sherif MS (1999) A comparison between neural-network forecasting techniques-case study: river flow forecasting. IEEE Trans Neural Netw 10(2):402–409
Azadeh A, Ghaderi SF, Sohrabkhani S (2007) Forecasting electrical consumption by integration of neural network, time series and ANOVA. Appl Math Comput 186:1753–1761
Azoff EM (1994) Neural network time series forecasting of financial markets. Wiley, Chichester, UK
Bakirtzis AG, Petridis V, Kiartzis SJ, Alexiadis MC, Maissis AH (1996) A neural network short term load forecasting model for the Greek power system. IEEE Trans Power Syst 11(2):858–863
Balkin DS, Ord KJ (2000) Automatic neural network modeling for univariate time series. Int J Forecasting 16:509–515
Barreto GA (2008) Time series prediction with the self-organizing map: a review. Stud Comput Intell 77:135–158
Berardi LV, Zhang PG (2003) An empirical investigation of bias and variance in time series forecasting: modeling considerations and error evaluation. IEEE Trans Neural Netw 14(3):668–679
Bhansali RJ (1997) Direct autoregressive predictions for multistep prediction: order selection and performance relative to the plug in predictors. Stat Sin 7:425–449
Bishop M (1995) Neural networks for pattern recognition. Oxford University Press, Oxford
Bodyanskiy Y, Popov S (2006) Neural network approach to forecasting of quasiperiodic financial time series. Eur J Oper Res 175:1357–1366
Box GEP, Jenkins G (1976) Time series analysis: forecasting and control. Holden-Day, San Francisco, CA
Cadenas E, Rivera W (2009) Short term wind speed forecasting in La Venta, Oaxaca, México, using artificial neural networks. Renewable Energy 34(1):274–278
Cai X, Zhang N, Venayagamoorthy GK, Wunsch DC (2007) Time series prediction with recurrent neural networks trained by a hybrid PSO-EA algorithm. Neurocomputing 70:2342–2353
Chakraborty K, Mehrotra K, Mohan KC, Ranka S (1992) Forecasting the behavior of multivariate time series using neural networks. Neural Netw 5:961–970
Chatfield C (2001) Time-series forecasting. Chapman & Hall/CRC, Boca Raton, FL
Chelani AB, Devotta S (2007) Prediction of ambient carbon monoxide concentration using nonlinear time series analysis technique. Transportation Res Part D 12:596–600
Chevillon G, Hendry DF (2005) Non-parametric direct multi-step estimation for forecasting economic processes. Int J Forecasting 21:201–218
Chu FL (2008) Analyzing and forecasting tourism demand with ARAR algorithm. Tourism Manag 29(6):1185–1196
Coakley JR, Brown CE (1999) Artificial neural networks in accounting and finance: modeling issues. Int J Intell Syst Acc Finance Manag 9:119–144
Coman A, Ionescu A, Candau Y (2008) Hourly ozone prediction for a 24-h horizon using neural networks. Environ Model Software 23(12):1407–1421
Connor JT, Martin RD, Atlas LE (1994) Recurrent neural networks and robust time series prediction. IEEE Trans Neural Netw 51(2):240–254
Cottrell M, Girard B, Girard Y, Mangeas M, Muller C (1995) Neural modeling for time series: a statistical stepwise method for weight elimination. IEEE Trans Neural Netw 6(6):1355–1364
De Gooijer JG, Kumar K (1992) Some recent developments in non-linear time series modeling, testing, and forecasting. Int J Forecasting 8:135–156
De Groot C, Wurtz D (1991) Analysis of univariate time series with connectionist nets: a case study of two classical examples. Neurocomputing 3:177–192
Doganis P, Aggelogiannaki E, Patrinos P, Sarimveis H (2006) Time series sales forecasting for short shelf-life food products based on artificial neural networks and evolutionary computing. J Food Eng 75:196–204
Doganis P, Aggelogiannaki E, Sarimveis H (2008) A combined model predictive control and time series forecasting framework for production-inventory systems. Int J Prod Res 46(24):6841–6853
Dougherty M (1995) A review of neural networks applied to transport. Transportation Res Part C 3(4):247–260
Egrioglu E, Aladag CAH, Gunay S (2008) A new model selection strategy in artificial neural networks. Appl Math Comput 195:591–597
Fadlalla A, Lin CH (2001) An analysis of the applications of neural networks in finance. Interfaces 31(4):112–122
Fahlman S, Lebiere C (1990) The cascade-correlation learning architecture. In: Touretzky D (ed) Advances in neural information processing systems, vol 2. Morgan Kaufmann, Los Altos, CA, pp 524–532
Farway J, Chatfield C (1995) Time series forecasting with neural networks: a comparative study using the airline data. Appl Stat 47:231–250
Findley DF (1985) Model selection for multi-step-ahead forecasting. In: Baker HA, Young PC (eds) Proceedings of the seventh symposium on identification and system parameter estimation. Pergamon, Oxford, New York, pp 1039–1044
Franses PH, Draisma G (1997) Recognizing changing seasonal patterns using artificial neural networks. J Econometrics 81:273–280
Frean M (1990) The Upstart algorithm: A method for constructing and training feed-forward networks. Neural Comput 2:198–209
Freitas and Rodrigues (2006) Model combination in neural-based forecasting. Eur J Oper Res 173:801–814
Gately E (1996) Neural networks for financial forecasting. Wiley, New York
Gautama AK, Chelanib AB, Jaina VK, Devotta S (2008) A new scheme to predict chaotic time series of air pollutant concentrations using artificial neural network and nearest neighbor searching. Atmospheric Environ 42:4409–4417
Ghiassi M, Saidane H, Zimbra DK (2005) A dynamic artificial neural network model for forecasting time series events. Int J Forecasting 21(2):341–362
Ghysels E, Granger CWJ, Siklos PL (1996) Is seasonal adjustment a linear or nonlinear data filtering process? J Bus Econ Stat 14:374–386
Ginzburg I, Horn D (1994) Combined neural networks for time series analysis. Adv Neural Info Process Syst 6:224–231
Goh YW, Lim PC, Peh KK (2003) Predicting drug dissolution profiles with an ensemble of boosted neural networks: A time series approach. IEEE Trans Neural Netw 14(2):459–463
Gorr L (1994) Research prospective on neural network forecasting. Int J Forecasting 10:1–4
Granger CWJ (1993) Strategies for modelling nonlinear time-series relationships. Econ Rec 69(206):233–238
Hansen JV, Nelson RD (2003) Forecasting and recombining time-series components by using neural networks. J Oper Res Soc 54(3):307–317
Hamzacebi C (2008) Improving artificial neural networks’ performance in seasonal time series forecasting. Inf Sci 178:4550–4559
Hamzacebi C, Akay D, Kutay F (2009) Comparison of direct and iterative artificial neural network forecast approaches in multi-periodic time series forecasting. Expert Syst Appl 36(2):3839–3844
Hill T, O’Connor M, Remus W (1996) Neural network models for time series forecasts. Manag Sci 42:1082–1092
Hippert HS, Pedreira CE, Souza RC (2001) Neural networks for short-term load forecasting: a review and evaluation. IEEE Trans Power Syst 16(1):44–55
Hippert HS, Bunn DW, Souza RC (2005) Large neural networks for electricity load forecasting: are they overfitted? Int J Forecasting 21(3):425–434
Hoptroff RG (1993) The principles and practice of time series forecasting and business modeling using neural networks. Neural Comput Appl 1:59–66
Huskent M, Stagge P (2003) Recurrent neural networks for time series classification. Neurocomputing 50:223–235
Hwang HB (2001) Insights into neural-network forecasting of time series corresponding to ARMA (p,q) structures. Omega 29:273–289
Hylleberg S (1992) General introduction. In: Hylleberg S (ed) Modelling seasonality. Oxford University Press, Oxford, pp 3–14
Hylleberg S (1994) Modelling seasonal variation. In: Hargreaves CP (ed) Nonstationary time series analysis and cointegration. Oxford University Press, Oxford, pp 153–178
Ittig PT (1997) A seasonal index for business. Decis Sci 28(2):335–355
Jain A, Kumar AM (2007) Hybrid neural network models for hydrologic time series forecasting. Appl Soft Comput 7:585–592
Jiang X, Adeli H (2005) Dynamic wavelet neural network model for traffic flow forecasting, J Transportation Eng 131(10):771–779
Kang I-B (2003) Multi-period forecasting using different models for different horizons: an application to U.S. economic time series data. Int J Forecasting 19:387–400
Kaastra I, Boyd M (1996) Designing a neural network for forecasting financial and economic time series. Neurocomputing 10:215–236
Kermanshahi B (1998) Recurrent neural network for forecasting next 10 years loads of nine Japanese utilities. Neurocomoputing 23:125–133
Khashei M, Hejazi SR, Bijari M (2008) A new hybrid artificial neural networks and fuzzy regression model for time series forecasting. Fuzzy Sets Syst 159:769–786
Khotanzad A, Afkhami-Rohani R, Lu TL, Abaye A, Davis M, Maratukulam DJ (1997) ANNSTLF—A neural-network-based electric load forecasting system. IEEE Trans Neural Netw 8(4):835–846
Kline DM (2004) Methods for multi-step time series forecasting with neural networks. In: Zhang GP (ed) Neural networks for business forecasting. Idea Group, Hershey, PA, pp 226–250
Kolarik T, Rudorfer G (1994) Time series forecasting using neural networks. APL Quote Quad 25:86–94
Krycha KA, Wagner U (1999) Applications of artificial neural networks in management science: a survey. J Retailing Consum Serv 6:185–203
Kuan C-M, Liu T (1995) Forecasting exchange rates using feedforward and recurrent neural networks. J Appl Economet 10:347–364
Lapedes A, Farber R (1987) Nonlinear signal processing using neural networks: Prediction and system modeling. Technical Report LA-UR-87-2662, Los Alamos National Laboratory, Los Alamos, NM
LeBaron B, Weigend AS (1998) A bootstrap evaluation of the effect of data splitting on financial time series. IEEE Trans Neural Netw 9(1):213–220
Lennon B, Montague GA, Frith AM, Gent C, Bevan V (2001) Industrial applications of neural networks—An investigation. J Process Control 11:497–507
Liang F (2005) Bayesian neural networks for nonlinear time series forecasting. Stat Comput 15:13–29
Lin J-L, Granger CWJ (1994) Forecasting from non-linear models in practice. J Forecasting 13:1–9
Liu Y, Yao X (1999) Ensemble learning via negative correlation. Neural Netw 12:1399–1404
Maier HR, Dandy GC (2000) Neural networks for the prediction and forecasting of water resource variables: a review of modeling issues and applications. Environ Model Software 15:101–124
Makridakis S, Anderson A, Carbone R, Fildes R, Hibdon M, Lewandowski R, Newton J, Parzen E, Winkler R (1982) The accuracy of extrapolation (time series) methods: results of a forecasting competition. J Forecasting 1(2):111–153
Mandic D, Chambers J (2001) Recurrent neural networks for prediction: learning algorithms, architectures and stability. Wiley, Chichester, UK
Marcellino M, Stock JH, Watson MW (2006) A comparison of direct and iterated multistep AR methods for forecasting macroeconomic time series. J Economet 135:499–526
Medeiros MC, Pedreira CE (2001) What are the effects of forecasting linear time series with neural networks? Eng Intell Syst 4:237–424
Medeiros MC, Veiga A (2000) A hybrid linear-neural model for time series forecasting. IEEE Trans Neural Netw 11(6):1402–1412
Medeiros MC, Terasvirta T, Rech G (2006) Building neural network models for time series: a statistical approach. J Forecasting 25:49–75
Menezes JMP, Barreto GA (2008) Long-term time series prediction with the NARX network: an empirical evaluation. Neurocomputing 71:3335–3343
Mishra AK, Desai VR (2006) Drought forecasting using feed-forward recursive neural network. Ecol Model 198:127–138
Nakamura E (2005) Inflation forecasting using a neural network. Econ Lett 86:373–378
Nelson M, Hill T, Remus T, O’Connor M (1999) Time series forecasting using neural networks: should the data be deseasonalized first? J Forecasting 18:359–367
Palmer A, Montano JJ, Sese A (2006) Designing an artificial neural network for forecasting tourism time series. Tourism Manag 27:781–790
Parisi A, Parisi F, Díaz D (2008) Forecasting gold price changes: rolling and recursive neural network models. J Multinational Financial Manag 18(5):477–487
Parlos AG, Rais OT, Atiya AF (2000) Multi-step-ahead prediction using dynamic recurrent neural networks. Neural Netw 13:765–786
Pelikan E, de Groot C, Wurtz D (1992) Power consumption in West-Bohemia: improved forecasts with decorrelating connectionist networks. Neural Netw World 2(6):701–712
Pino P, Parreno J, Gomez A, Priore P (2008) Forecasting next-day price of electricity in the Spanish energy market using artificial neural networks. Eng Appl Artif Intell 21:53–62
Poli I, Jones DR (1994) A neural net model for prediction. J Am Stat Assoc 89:117–121
Qi M, Zhang GP (2001) An investigation of model selection criteria for neural network time series forecasting. Eur J Oper Res 132:666–680
Qi M, Zhang GP (2008) Trend time-series modeling and forecasting with neural networks. IEEE Trans Neural Netw 19(5):808–816
Reed R (1993) Pruning algorithms—A survey. IEEE Trans Neural Netw 4(5):740–747
Remus W, O’Connor M (2001) Neural networks for time series forecasting. In: Armstrong JS (ed) Principles of forecasting: a handbook for researchers and practitioners. Kluwer, Norwell, MA, pp 245–256
Ripley BD (1996) Pattern recognition and neural networks. Cambridge University Press, Cambridge
Rumelhart DE, McClelland JL, PDP Research Group (1986) Parallel distributed processing: explorations in the microstructure of cognition, Foundations, vol 1. MIT Press, Cambridge, MA
Sharda R, Patil RB (1992) Connectionist approach to time series prediction: an empirical test. J Intell Manufacturing 3:317–323
Sharkey CJ (1996) On combining artificial neural nets. Connect Sci 8:299–314
Sharkey CJ, Sharkey EN (1997) Combining diverse neural nets. Knowledge Eng Rev 12(3):231–247
Smith M (1993) Neural networks for statistical modeling. Van Nostrand Reinhold, New York
Stoica P, Nehorai A (1989) On multi-step prediction errors methods for time series models. J Forecasting 13:109–131
Swanson NR, White H (1995) A model-selection approach to assessing the information in the term structure using linear models and artificial neural networks. J Bus Econ Stat 13:265–275
Tiao GC, Tsay RS (1994) Some advances in non-linear and adaptive modeling in time-series. J Forecasting 13:109–131
Teräsvirta T, van Dijk D, Medeiros MC (2005) Linear models, smooth transition autoregressions, and neural networks for forecasting macroeconomic time series: a re-examination. Int J Forecasting 21(4):755–774
Vellido A, Lisboa PJG, Vaughan J (1999) Neural networks in business: a survey of applications (1992–1998). Expert Syst Appl 17:51–70
Vermaak J, Botha EC (1998) Recurrent neural networks for short-term load forecasting. IEEE Trans Power Syst 13(1):126–132
Wang Y-H (2009) Nonlinear neural network forecasting model for stock index option price: hybrid GJR-GARCH approach. Expert Syst Appl 36(1):564–570
Wedding K II, Cios JK (1996) Time series forecasting by combining RBF networks, certainty factors, and the Box-Jenkins model. Neurocomputing 10:149–168
Weigend AS, Gershenfeld NA (1994) Time series prediction: forecasting the future and understanding the past. Addison-Wesley, Reading, MA
Weigend AS, Huberman BA, Rumelhart DE (1990) Predicting the future: a connectionist approach. Int J Neural Syst 1:193–209
Weigend AS, Huberman BA, Rumelhart DE (1992) Predicting sunspots and exchange rates with connectionist networks. In: Casdagli M, Eubank S (eds) Nonlinear modeling and forecasting. Addison-Wesley, Redwood City, CA, pp 395–432
Werbos P (1974) Beyond regression: new tools for prediction and analysis in the behavioral sciences. Ph.D. thesis, Harvard University
Wichard J, Ogorzalek M (2007) Time series prediction with ensemble models applied to the CATS benchmark. Neurocomputing 70:2371–2378
Wong BK, Selvi Y (1998) Neural network applications in finance: a review and analysis of literature (1990–1996). Inf Manag 34:129–139
Wong BK, Lai VS, Lam J (2000) A bibliography of neural network business applications research: 1994–1998. Comput Oper Res 27:1045–1076
Xiao Z, Ye SJ, Zhong B, Sun CX (2009) BP neural network with rough set for short term load forecasting. Expert Syst Appl 36(1):273–279
Zhang G, Patuwo EP, Hu MY (1998) Forecasting with artificial neural networks: the state of the art. Int J Forecasting 14:35–62
Zhang GP (2001) An investigation of neural networks for linear time-series forecasting. Comput Oper Res 28:1183–1202
Zhang GP (2003) Time series forecasting using a hybrid ARIMA and neural network model. Neurocomputing 50:159–175
Zhang GP (2004) Neural networks in business forecasting. Idea Group, Hershey, PA
Zhang GP (2007a) Avoiding pitfalls in neural network research. IEEE Trans Syst Man and Cybern 37:3–16
Zhang GP (2007b) A neural network ensemble method with jittered training data for time series forecasting. Inf Sci 177:5329–5346
Zhang GP, Berardi LV (2001) Time series forecasting with neural network ensembles: An application for exchange rate prediction. J Oper Res Soc 52(6):652–664
Zhang GP, Kline D (2007) Quarterly time-series forecasting with neural networks. IEEE Trans Neural Netw 18(6):1800–1814
Zhang GP, Qi M (2002) Predicting consumer retail sales using neural networks. In: Smith K, Gupta J (eds) Neural networks in business: techniques and applications. Idea Group, Hershey, PA, pp 26–40
Zhang GP, Qi M (2005) Neural network forecasting for seasonal and trend time series. Eur J Oper Res 160(2):501–514
Zhang GP, Patuwo EP, Hu MY (2001) A simulation study of artificial neural networks for nonlinear time series forecasting. Comput Oper Res 28:381–396
Zhang YQ, Wan X (2007) Statistical fuzzy interval neural networks for currency exchange rate time series prediction. Appl Soft Comput 7:1149–1156
Zou HF, Xia GP, Yang FT, Wang HY (2007) An investigation and comparison of artificial neural network and time series models for Chinese food grain price forecasting. Neurocomputing 70:2913–2923
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2012 Springer-Verlag Berlin Heidelberg
About this entry
Cite this entry
Zhang, G.P. (2012). Neural Networks for Time-Series Forecasting. In: Rozenberg, G., Bäck, T., Kok, J.N. (eds) Handbook of Natural Computing. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-92910-9_14
Download citation
DOI: https://doi.org/10.1007/978-3-540-92910-9_14
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-92909-3
Online ISBN: 978-3-540-92910-9
eBook Packages: Computer ScienceReference Module Computer Science and Engineering