Comparing the Forecasting Performance of Seasonal Arima and Holt -Winters Methods of Births at a Tertiary Healthcare Facility in Ghana
,
Abstract
Introduction: Studies have shown periodic variations in the number of births using different mathematical models. A study conducted at the Korle-Bu teaching hospital obtained Seasonal Autoregressive Integrated Moving Average (SARIMA) model on a monthly number of birth for an 11-year data. However, this study did not compare the obtained model with other forecasting methods to determine the method that will best explain the data. This study sought to compare seasonal SARIMA model with Holt-Winters seasonal forecasting methods for an 11-year time series data on the number of births..
Methods: Data were analysed in R software (version 3.3.3). Holt-Winters and seasonal ARIMA forecasting methods were applied to the birth data. The errors of the out – of-sample forecast of these methods were compared and the one with the least error was considered the best forecasting method.
Results: The in-sample forecasting errors showed that SARIMA (2,1,1) x (1,01,) was the best among the other models. The out-of-sample errors also showed that all the SARIMA models had lower errors compared to the Holt-Winters form of additive and multiplicative methods based on the forecasting accuracy indices of the monthly number of births for an 11-year period. It was also found that the months with very high statistically significant number of births over the period was from March to August.
Conclusion: The SARIMA models were superior to the Holt-Winters models. This is essential for optimal forecasting of the number of births for planning and effective delivery of Obstetrics services..
2. Omane-Adjepong M, Oduro FT, Oduro SD. Determining the Better Approach for Short-Term Forecasting of Ghana ’ s Inflation : Centre for Actuarial Science , Risk and Investment. Int J Business, Humanit Technol. 2013;3(1):69–79.
3. Makananisa MP, Erero JL. Predicting South African personal income tax – using Holt – Winters and SARIMA. J Econ Manag. 2018;31(1):24–49.
4. Bras AL, Gomes D, Filipe PA, Sousa B De, Nunes C. Trends , seasonality and forecasts of pulmonary tuberculosis in Portugal. Int J Tuberc Lung Dis. 2014;18(10):1202–10.
5. Kahforoushan E, Zarif M, Mashahir EB. Prediction of added value of agricultural subsections using artificial neural networks : Box-Jenkins and Holt-Winters methods. J Dev Agric Econ. 2010;2(4):115–21.
6. Tirkeş G, Güray C, Çelebi N. Demand Forecasting: A Comparison between the HoltWinters, Trend Analysis and Decomposition Models. Teh Vjesn. 2017;24(Suppl. 2):503–9.
7. Wąsik E, Chmielowski K. The use of Holt – Winters method for forecasting the amount of sewage inflowing into the wastewater treatment plant in Nowy Sącz Environ Prot Nat Resour. 2016;27(2):7–12.
8. Chowdhury R, Mukherjee A, Naska S, Adhikary M, Lahiri SK. Seasonality of tuberculosis in rural West Bengal : A time series analysis. Int J Heal Allied Sci. 2013;2(2):95–8.
9. Khaliq A, Aadila S, Chaudhry MN. Seasonality and trend analysis of tuberculosis in Lahore , Pakistan from 2006 to 2013. J Epidemiol
Glob Health. 2015;5(4):397–403. Available from:http://dx.doi.org/10.1016/j.jegh.2015.07.00 7
10. Gelper S, Fried R, Croux C. Robust Forecasting with Exponential and Holt – Winters Smoothing. J Forecast. 2010;29:285–300.
11. Tratar LF, Strmcnik E. The comparison of Holt e Winters method and Multiple regression method : A case study. Energy. 2016;109:266– 76.
12. Bohun-Chudyniv, B LyBurnham CG, Knight A, McClare D, Osborne D, Savada A, Eric D. Domestic trend to the year 2015: forecast for the United States. Federal Research Division, Library of Congress. 1991.
13. Cohen A. Effect on the Number of Birth in Israel. J R Stat Soc. 1983;32(3):228–35.
14. Caleiro A. Forecasting the Number of Births in Portugal. In: Forecasting Demographic componenets:fertility. 2010. p. 1–9.
15. Onwuka GI, Babayemi AW. Model for the Forecasting of Monthly Normal Child-Birth Delivery in Hospitals. Int J Eng Sci. 2013;2(4):100–9.
16. Essuman R, Nortey ENN, Aryee G, OseiAssibey E, Darkwa Owusu E, Djagbletey R. Modeling births at a tertiary health-care facility in Ghana: Box-Jenkins time series approach. J Biostat Epidemiol. 2017;3(1):13–9.
17. DA Veiga CP, DA Veiga CRP, Catapan A, Tortato U, DA Silva W V. Demand forecasting in food retail : a comparison between the Holt- Winters and ARIMA models. WSEAS Trans Bus Econ. 2014;11:608–14.
18. Odame Owiredu E, Adebanji A, Labeodan O. Using Holt Winter ’ s Multiplicative Model to Forecast Assisted Childbirths at the Teaching Hospital in Ashanti Region , Ghana. J Biol Agric Healthc. 2014;9:83–8.
| Files | ||
| Issue | Vol 5 No 1 (2019) | |
| Section | Original Article(s) | |
| DOI | https://doi.org/10.18502/jbe.v5i1.1903 | |
| Keywords | ||
| Forecasting Obstetrics Birth Models Seasonal variation | ||
| Rights and permissions | |
|
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License. |
