A hybrid flowshop scheduling model considering dedicated machines and lot-splitting for the solar cell industry |
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| Authors: | Li-Chih Wang Tzu-Li Chen Chen-Yang Cheng Chin-Wei Chang |
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| Affiliation: | 1. Department of Industrial Engineering and Enterprise information, Tunghai University, Taichung, Taiwan, ROC;2. Tunghai Green Energy Development and Management Institute (TGEI), Tunghai University, Taichung, Taiwan, ROC;3. Department of Information Management, Fu Jen Catholic University, New Taipei City, Taiwan, ROC |
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| Abstract: | This paper studies a solar cell industry scheduling problem, which is similar to traditional hybrid flowshop scheduling (HFS). In a typical HFS problem, the allocation of machine resources for each order should be scheduled in advance. However, the challenge in solar cell manufacturing is the number of machines that can be adjusted dynamically to complete the job. An optimal production scheduling model is developed to explore these issues, considering the practical characteristics, such as hybrid flowshop, parallel machine system, dedicated machines, sequence independent job setup times and sequence dependent job setup times. The objective of this model is to minimise the makespan and to decide the processing sequence of the orders/lots in each stage, lot-splitting decisions for the orders and the number of machines used to satisfy the demands in each stage. From the experimental results, lot-splitting has significant effect on shortening the makespan, and the improvement effect is influenced by the processing time and the setup time of orders. Therefore, the threshold point to improve the makespan can be identified. In addition, the model also indicates that more lot-splitting approaches, that is, the flexibility of allocating orders/lots to machines is larger, will result in a better scheduling performance. |
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| Keywords: | hybrid flowshop scheduling lot-splitting solar cell manufacturing |
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