Research Article
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A Comparative Study on Modelling and Forecasting Tourism Revenues: The Case of Turkey

Year 2020, Volume: 8 Issue: 2, 235 - 255, 25.12.2020
https://doi.org/10.30519/ahtr.765394

Abstract

Tourism revenues have important implications for tourism countries in terms of management of tourism-related policies. In order to accurately direct production planning, pricing, promotion and strategic marketing programs, labor and capital resources, accurate and reliable forecasts are needed. Forecasting the developments in tourism with scientific basis methods is an important guide for central and local public administration programs and tourism operators. When reviewing the literature, comparative studies on modeling and forecasting tourism revenues using Artificial Neural Networks (ANNs) are limited and this paper aims to fill this gap. Based on the gap seen in the literature, the purpose of this study is to develop the optimal forecasting model that yields the highest accuracy when compared the forecast performances of three different methods namely Exponential Smoothing, Box-Jenkins and ANNs for forecasting Turkey’s tourism revenues. Forecasting performances of the models were measured by MAPE statistics. As a result of the analyses performed, it was found that ANN Model with [4:5:1] architecture was the best one among the all models applied in this study.

References

  • Akay, G. H., Cifter, A., & Teke, O. (2017). Turkish tourism, exchange rates and income. Tourism Economics, 23(1), 66–77.
  • Aktaş, A., Ozkan, B., Kaplan, F., & Brumfield, R. (2014). Exchange rate volatility: Effect on Turkish tourism incomes. Management Studies, 2(8), 493-499.
  • Anvari, S., Tuna, S., Canci, M., & Turkay, M. (2016). Automated Box–Jenkins forecasting tool with an application for passenger demand in urban rail systems. Journal of Advanced Transportation, 50, 25-49.
  • Bayramoğlu, M. F., & Başarir, Ç. (2018). International diversified portfolio optimization with artificial neural networks: An application with foreign companies listed on NYSE. In D. Kumar G. (Ed.), Machine Learning Techniques for Improved Business Analytics, (pp. 201-223). IGI-Global.
  • Çalışkan, U., Saltık, I. A., Ceylan, R., & Bahar, O. (2019). Panel cointegration analysis of relationship between international trade and tourism: Case of Turkey and silk road countries. Tourism Management Perspectives, 31, 361-369.
  • Chen, B. F., Wang, H. D., & Chu, C. C. (2007). Wavelet and artificial neural network analyses of tide forecasting and supplement of tides around Taiwan and South China Sea. Ocean Engineering, 34(16), 2161-2175.
  • Egrioglu, E., Aladag, Ç. H., Yolcu, U., Baş, E., & Dalar, A. Z. (2017). A new neural network model with deterministic trend and seasonality components for time series forecasting. In Ç. H. Aladağ (Ed.), Advances in Time Series Forecasting, (Vol. 2) (pp. 76-92). Sharjah, UAE: Bentham Science Publishers.
  • Ertugrul, H. M., & Mangir, F. (2015). The tourism-led growth hypothesis: empirical evidence from Turkey. Current Issues in Tourism, 18(7), 633–646.
  • Golam, K., & Hasin, M. A. H. (2013). Comparative analysis of artificial neural networks and neuro-fuzzy models for multicriteria demand forecasting. International Journal of Fuzzy System Applications, 3(1), 1-24.
  • Gökovalı, U. (2010). Contribution of tourism to economic growth in Turkey. Anatolia: An International Journal of Tourism and Hospitality Research, 21(1), 139-153.
  • Gunduz, L., & Hatemi-J, A. (2005). Is the tourism-led growth hypothesis valid for Turkey?. Applied Economics Letters, 12(8), 499-504.
  • Höpken, W., Eberle, T., Fuchs, M., & Lexhagen, M. (2020). Improving tourist arrival prediction: A big data and artificial neural network approach. Journal of Travel Research, 1–20, DOI: 10.1177/0047287520921244
  • Hüseyni, İ., Doru, Ö., & Tunç, A. (2017). The effects of tourism revenues on economic growth in the context of neo-classical growth model: In the case of Turkey. Ecoforum, 6(1), 1-6.
  • Kaplan, F., & Aktas, A.R. (2016). The Turkey tourism demand: A gravity model. The Empirical Economics Letters, 15(3), 265-272.
  • Kara, A., Tarim, M., & Tatoglu, E. (2003). The economic, social and environmental determinants of tourism revenue in Turkey: Some policy implications. Journal of Economic and Social Research, 5(2), 61-72.
  • Kon, S. C., & Turner, W. L. (2005). Neural network forecasting of tourism demand. Tourism Economics, 11(3), 301-328.
  • Law, R., & Pine, R. (2004). Tourism demand forecasting for the tourism industry: A neural network approach. In G.P. Zhang (ed.), Neural Networks in Business Forecasting, (pp. 121-141). Idea Group Publishing, Hershey: PA.
  • Lewis, C. D. (1982). Industrial and business forecasting methods: A practical guide to exponential smoothing and curve fitting. London. UK: Butterworth Scientific.
  • Makridakis, S., Wheelwright, S. C., & Hyndman, R. J. (1998). Forecasting: Methods and Applications (3rd Edition). New York, USA: John Wiley and Sons.
  • Ministry of Culture and Tourism (2020). Tourism Statistics 2019: General Overview. Retrived 16 June, 2020, from https://testsite.ktb.gov.tr/kultursurasi/Eklenti/69320,turizmistatistikleri2019-4pdf.pdf?0
  • Moeeni, H., & Bonakdari, H. (2016). Forecasting monthly inflow with extreme seasonal variation using the hybrid SARIMA-ANN model. Stochastic Environmental Research Risk Assessment, 31(8), 1997-2010.
  • Moreno, J. J. M., Poll, A. P., & Gracia, P. M. (2011). Artificial neural networks applied to forecasting time series. Psicothema, 23(2), 322-329.
  • Önder, I. (2017). Forecasting tourism demand with Google trends: Accuracy comparison of countries versus cities. International Journal of Tourism Research, 19, 648–60.
  • Ongan, S., Işık, C., & Özdemir, D. (2017). The effects of real exchange rates and income on international tourism demand for the USA from some European Union Countries. Economies, 51(5), 1-11.
  • Öztük, İ., & Acaravcı, A. (2009). On the causality between tourism growth and economic growth: Empirical evidence from Turkey. Transylvanian Review of Administrative Sciences, 25E, 73-81.
  • Payne, J. E., & Mervar, A. (2002). A note on modelling tourism revenues in Croatia. Tourism Economics, 8(1), 103–109.
  • Peng, B., H. Song, H., & Crouch, G. I. (2014). A meta-analysis of international tourism demand forecasting and implications for practice. Tourism Management, 45, 181–93.
  • Qin, Y., Luo, Y., Zhao, Y., & Zhang, J. (2018). Research on relationship between tourism income and economic growth based on meta-analysis. Applied Mathematics and Nonlinear Sciences, 3, 105–114.
  • Smith, K. A. (2002). Neural networks for business: An introduction. In K. A. Smith & J. T. D. Gupta (Eds.), Neural Networks in Business: Techniques and Applications (pp. 1-25). Idea Group Publishing.
  • Song, H., & Li, G. (2008). Tourism demand modelling and forecasting: A review of recent research. Tourism Management, 29, 203–20.
  • Teixeira, J. P., & Fernandes, P. O. (2012). Tourism time series forecast - different ANN architectures with time index input. Procedia Technology, 5, 445–454.
  • UNWTO-World Tourism Organization (2020a). World Tourism Barometer, January, 18(1).
  • UNWTO-World Tourism Organization (2020b). COVID–19 Related Travel Restrictions. A Global Review for Tourism. First Report as of 16 April 2020.
  • United Nations (2010). International Recommendations for Tourism Statistics 2008, Department of Economic and Social Affairs, New York.
  • Wong, B. K., Jiang, L., & Lam, J. (2000). A bibliography of neural network business application research: 1994-1998. Computers and Operations Research, 27(11), 1045-1076.
  • WTTC-World Travel and Tourism Council (2020). Travel, & Tourism Economic Impact Report.
  • Wu, T. P., & Wu, H. C. (2018). The influence of international tourism receipts on economic development: Evidence from China’s 31 major regions. Journal of Travel Research, 57(7), 871–882.
  • Zhang, G. P., & Qi, M. (2005). Neural network forecasting for seasonal and trend time series. European Journal of Operational Research, 160(2), 502-514.
  • Zhang, Y., Li, G., Muskat, B., & Law, R. (2020). Tourism demand forecasting: A decomposed deep learning approach. Journal of Travel Research, 1-17. DOI: 10.1177/0047287520919522
Year 2020, Volume: 8 Issue: 2, 235 - 255, 25.12.2020
https://doi.org/10.30519/ahtr.765394

Abstract

References

  • Akay, G. H., Cifter, A., & Teke, O. (2017). Turkish tourism, exchange rates and income. Tourism Economics, 23(1), 66–77.
  • Aktaş, A., Ozkan, B., Kaplan, F., & Brumfield, R. (2014). Exchange rate volatility: Effect on Turkish tourism incomes. Management Studies, 2(8), 493-499.
  • Anvari, S., Tuna, S., Canci, M., & Turkay, M. (2016). Automated Box–Jenkins forecasting tool with an application for passenger demand in urban rail systems. Journal of Advanced Transportation, 50, 25-49.
  • Bayramoğlu, M. F., & Başarir, Ç. (2018). International diversified portfolio optimization with artificial neural networks: An application with foreign companies listed on NYSE. In D. Kumar G. (Ed.), Machine Learning Techniques for Improved Business Analytics, (pp. 201-223). IGI-Global.
  • Çalışkan, U., Saltık, I. A., Ceylan, R., & Bahar, O. (2019). Panel cointegration analysis of relationship between international trade and tourism: Case of Turkey and silk road countries. Tourism Management Perspectives, 31, 361-369.
  • Chen, B. F., Wang, H. D., & Chu, C. C. (2007). Wavelet and artificial neural network analyses of tide forecasting and supplement of tides around Taiwan and South China Sea. Ocean Engineering, 34(16), 2161-2175.
  • Egrioglu, E., Aladag, Ç. H., Yolcu, U., Baş, E., & Dalar, A. Z. (2017). A new neural network model with deterministic trend and seasonality components for time series forecasting. In Ç. H. Aladağ (Ed.), Advances in Time Series Forecasting, (Vol. 2) (pp. 76-92). Sharjah, UAE: Bentham Science Publishers.
  • Ertugrul, H. M., & Mangir, F. (2015). The tourism-led growth hypothesis: empirical evidence from Turkey. Current Issues in Tourism, 18(7), 633–646.
  • Golam, K., & Hasin, M. A. H. (2013). Comparative analysis of artificial neural networks and neuro-fuzzy models for multicriteria demand forecasting. International Journal of Fuzzy System Applications, 3(1), 1-24.
  • Gökovalı, U. (2010). Contribution of tourism to economic growth in Turkey. Anatolia: An International Journal of Tourism and Hospitality Research, 21(1), 139-153.
  • Gunduz, L., & Hatemi-J, A. (2005). Is the tourism-led growth hypothesis valid for Turkey?. Applied Economics Letters, 12(8), 499-504.
  • Höpken, W., Eberle, T., Fuchs, M., & Lexhagen, M. (2020). Improving tourist arrival prediction: A big data and artificial neural network approach. Journal of Travel Research, 1–20, DOI: 10.1177/0047287520921244
  • Hüseyni, İ., Doru, Ö., & Tunç, A. (2017). The effects of tourism revenues on economic growth in the context of neo-classical growth model: In the case of Turkey. Ecoforum, 6(1), 1-6.
  • Kaplan, F., & Aktas, A.R. (2016). The Turkey tourism demand: A gravity model. The Empirical Economics Letters, 15(3), 265-272.
  • Kara, A., Tarim, M., & Tatoglu, E. (2003). The economic, social and environmental determinants of tourism revenue in Turkey: Some policy implications. Journal of Economic and Social Research, 5(2), 61-72.
  • Kon, S. C., & Turner, W. L. (2005). Neural network forecasting of tourism demand. Tourism Economics, 11(3), 301-328.
  • Law, R., & Pine, R. (2004). Tourism demand forecasting for the tourism industry: A neural network approach. In G.P. Zhang (ed.), Neural Networks in Business Forecasting, (pp. 121-141). Idea Group Publishing, Hershey: PA.
  • Lewis, C. D. (1982). Industrial and business forecasting methods: A practical guide to exponential smoothing and curve fitting. London. UK: Butterworth Scientific.
  • Makridakis, S., Wheelwright, S. C., & Hyndman, R. J. (1998). Forecasting: Methods and Applications (3rd Edition). New York, USA: John Wiley and Sons.
  • Ministry of Culture and Tourism (2020). Tourism Statistics 2019: General Overview. Retrived 16 June, 2020, from https://testsite.ktb.gov.tr/kultursurasi/Eklenti/69320,turizmistatistikleri2019-4pdf.pdf?0
  • Moeeni, H., & Bonakdari, H. (2016). Forecasting monthly inflow with extreme seasonal variation using the hybrid SARIMA-ANN model. Stochastic Environmental Research Risk Assessment, 31(8), 1997-2010.
  • Moreno, J. J. M., Poll, A. P., & Gracia, P. M. (2011). Artificial neural networks applied to forecasting time series. Psicothema, 23(2), 322-329.
  • Önder, I. (2017). Forecasting tourism demand with Google trends: Accuracy comparison of countries versus cities. International Journal of Tourism Research, 19, 648–60.
  • Ongan, S., Işık, C., & Özdemir, D. (2017). The effects of real exchange rates and income on international tourism demand for the USA from some European Union Countries. Economies, 51(5), 1-11.
  • Öztük, İ., & Acaravcı, A. (2009). On the causality between tourism growth and economic growth: Empirical evidence from Turkey. Transylvanian Review of Administrative Sciences, 25E, 73-81.
  • Payne, J. E., & Mervar, A. (2002). A note on modelling tourism revenues in Croatia. Tourism Economics, 8(1), 103–109.
  • Peng, B., H. Song, H., & Crouch, G. I. (2014). A meta-analysis of international tourism demand forecasting and implications for practice. Tourism Management, 45, 181–93.
  • Qin, Y., Luo, Y., Zhao, Y., & Zhang, J. (2018). Research on relationship between tourism income and economic growth based on meta-analysis. Applied Mathematics and Nonlinear Sciences, 3, 105–114.
  • Smith, K. A. (2002). Neural networks for business: An introduction. In K. A. Smith & J. T. D. Gupta (Eds.), Neural Networks in Business: Techniques and Applications (pp. 1-25). Idea Group Publishing.
  • Song, H., & Li, G. (2008). Tourism demand modelling and forecasting: A review of recent research. Tourism Management, 29, 203–20.
  • Teixeira, J. P., & Fernandes, P. O. (2012). Tourism time series forecast - different ANN architectures with time index input. Procedia Technology, 5, 445–454.
  • UNWTO-World Tourism Organization (2020a). World Tourism Barometer, January, 18(1).
  • UNWTO-World Tourism Organization (2020b). COVID–19 Related Travel Restrictions. A Global Review for Tourism. First Report as of 16 April 2020.
  • United Nations (2010). International Recommendations for Tourism Statistics 2008, Department of Economic and Social Affairs, New York.
  • Wong, B. K., Jiang, L., & Lam, J. (2000). A bibliography of neural network business application research: 1994-1998. Computers and Operations Research, 27(11), 1045-1076.
  • WTTC-World Travel and Tourism Council (2020). Travel, & Tourism Economic Impact Report.
  • Wu, T. P., & Wu, H. C. (2018). The influence of international tourism receipts on economic development: Evidence from China’s 31 major regions. Journal of Travel Research, 57(7), 871–882.
  • Zhang, G. P., & Qi, M. (2005). Neural network forecasting for seasonal and trend time series. European Journal of Operational Research, 160(2), 502-514.
  • Zhang, Y., Li, G., Muskat, B., & Law, R. (2020). Tourism demand forecasting: A decomposed deep learning approach. Journal of Travel Research, 1-17. DOI: 10.1177/0047287520919522
There are 39 citations in total.

Details

Primary Language English
Subjects Tourism (Other)
Journal Section Research Article
Authors

Murat Çuhadar 0000-0003-0434-1550

Publication Date December 25, 2020
Submission Date July 7, 2020
Published in Issue Year 2020 Volume: 8 Issue: 2

Cite

APA Çuhadar, M. (2020). A Comparative Study on Modelling and Forecasting Tourism Revenues: The Case of Turkey. Advances in Hospitality and Tourism Research (AHTR), 8(2), 235-255. https://doi.org/10.30519/ahtr.765394


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