Publicação
A collaborative multiplicative Holt-Winters forecasting approach with dynamic fuzzy-Level component
| Resumo: | The adoption of forecasting approaches such as the multiplicative Holt-Winters (MHW) model is preferred in business, especially for the prediction of future events having seasonal and other causal variations. However, in the MHW model the initial values of the time-series parameters and smoothing constants are incorporated by a recursion process to estimate and update the level (<i>L<sub>T</sub></i>), growth rate (<i>b<sub>T</sub></i>) and seasonal component (<i>SN<sub>T</sub></i>). The current practice of integrating and/or determining the initial value of <i>L<sub>T</sub></i> is a stationary process, as it restricts the scope of adjustment with the progression of time and, thereby, the forecasting accuracy is compromised, while the periodic updating of <i>L<sub>T</sub></i> is avoided, presumably due to the computational complexity. To overcome this obstacle, a fuzzy logic-based prediction model is developed to evaluate <i>L<sub>T</sub></i> dynamically and to embed its value into the conventional MHW approach. The developed model is implemented in the MATLAB Fuzzy Logic Toolbox along with an optimal smoothing constant-seeking program. The new model, proposed as a collaborative approach, is tested with real-life data gathered from a local manufacturer and also for two industrial cases extracted from literature. In all cases, a significant improvement in forecasting accuracy is achieved. |
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| Autores principais: | Kays, H. M. Emrul |
| Outros Autores: | Karim, A. N. M.; Daud, Mohd Radzi C.; Varela, Maria Leonilde Rocha; Putnik, Goran D.; Machado, José |
| Assunto: | collaborative forecasting fuzzy logic-based model level-prediction model multiplicative Holt-Winters method seasonal demand forecasting |
| Ano: | 2018 |
| País: | Portugal |
| Tipo de documento: | artigo |
| Tipo de acesso: | acesso aberto |
| Instituição associada: | Universidade do Minho |
| Idioma: | inglês |
| Origem: | RepositóriUM - Universidade do Minho |
| Resumo: | The adoption of forecasting approaches such as the multiplicative Holt-Winters (MHW) model is preferred in business, especially for the prediction of future events having seasonal and other causal variations. However, in the MHW model the initial values of the time-series parameters and smoothing constants are incorporated by a recursion process to estimate and update the level (<i>L<sub>T</sub></i>), growth rate (<i>b<sub>T</sub></i>) and seasonal component (<i>SN<sub>T</sub></i>). The current practice of integrating and/or determining the initial value of <i>L<sub>T</sub></i> is a stationary process, as it restricts the scope of adjustment with the progression of time and, thereby, the forecasting accuracy is compromised, while the periodic updating of <i>L<sub>T</sub></i> is avoided, presumably due to the computational complexity. To overcome this obstacle, a fuzzy logic-based prediction model is developed to evaluate <i>L<sub>T</sub></i> dynamically and to embed its value into the conventional MHW approach. The developed model is implemented in the MATLAB Fuzzy Logic Toolbox along with an optimal smoothing constant-seeking program. The new model, proposed as a collaborative approach, is tested with real-life data gathered from a local manufacturer and also for two industrial cases extracted from literature. In all cases, a significant improvement in forecasting accuracy is achieved. |
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