A constrained EPSAC approach to inventory control for a benchmark supply chain system |
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Authors: | Dongfei Fu Clara M. Ionescu El-Houssaine Aghezzaf Robin De Keyser |
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Affiliation: | 1. Department Electrical energy, System and Automation, Ghent University, Gent, BelgiumDongfei.Fu@ugent.be;3. Department Electrical energy, System and Automation, Ghent University, Gent, Belgium;4. Department of Industrial Management, Ghent University, Gent, Belgium |
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Abstract: | The design of an appropriate inventory control policy for a supply chain (SC) plays an essential role in tempering inventory instability and bullwhip effect. Several constraints are commonly encountered in actual operations so managers are required to take these physical restrictions into account when designing the inventory control policy. Model predictive control (MPC) appears as a promising solution to this issue, due to its capability of finding optimal control actions for a constrained SC system. Therefore, the inventory control problem for a benchmark SC is solved using the extended prediction self-adaptive control approach to MPC. To extend methodologies in our previous work, the control framework relies on generic process model and incorporates the physical constraints arising from practical operations to form the general constrained optimisation problems. The managers can choose from decentralised and centralised control structures according to specific informational and organisational factors of their SCs. The proposed control schemes in this study may be appropriate for industrial practice because the designed policy can bring a reduction of over 30% in operating cost and a significant increase of customer satisfaction level compared with that of the conventional policy. |
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Keywords: | supply chain model predictive control inventory control constrained control |
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