Modeling the commercial electricity demand in santa catarina, using the box-jenkins methodology

International Journal of Development Research

Volume: 
11
Article ID: 
22265
8 pages
Research Article

Modeling the commercial electricity demand in santa catarina, using the box-jenkins methodology

Abstract: 

The present study was carried out to make forecasts of the monthly commercial electricity demand in the state of Santa Catarina. Historical data from January 2004 to December 2019 were used, with data from the last year being considered in the model validation process. After the exploratory analysis based on descriptive measures, graphs and hypothesis tests, several other techniques were employed in the various stages of the Box-Jenkins methodology: identification, estimation, diagnosis and forecast. The SARIMA (1,1,1) (1,1,1)12 was selected as the one with the best performance according to some goodness-of-fit measures. In this model process, we identify some issues in the stationarity tests and in the use of both autocorrelation and partial autocorrelation functions used in the model identification. Nonetheless, other techniques, such as maximum likelihood estimation process, Ljung-Box, Jarque-Bera and ARCH for diagnostics and RMSE, MAPE and MAE as goodness-of-fit measures performed reasonable well, as expected. Only a few parameter values (zero up to three) of the Box-Jenkins models were considered in the model estimation stage. Practical implications: The fitted model can be used to provide electricity demand forecasting in the state of Santa Catarina, that may assist the planning of the electricity sector. Further, it may be used as subsidies on the development and improvement of public policies given that there is a great. In addition to fitting a proper model to represent the monthly commercial electricity demand in the State of Santa Catarina, we have identified some drawbacks in the applied methodology. Further studies may be performed to provide a better methodology and/or approach in order to obtain better and more accurateforecasts.

DOI: 
https://doi.org/10.37118/ijdr.22265.06.2021
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