Joint production and subcontracting planning of unreliable multi-facility multi-product production systems |
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| Institution: | 1. Mechanical Engineering Department, Laboratory of Integrated Production Technologies, University of Quebec, École de Technologie Supérieure, 1100, Notre Dame Street West, Montreal, Quebec H3C 1K3, Canada;2. Automated Production Engineering Department, Production System Design and Control Laboratory, University of Quebec, École de Technologie Supérieure, 1100, Notre Dame Street West, Montreal, Quebec H3C 1K3, Canada;1. Australian Centre for Field Robotics, University of Sydney, Sydney, Australia;2. School of Engineering and Information Technology, University of New South Wales, Canberra, Australia;3. School of Mechanical and Mining Engineering, University of Queensland, Brisbane, Australia |
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| Abstract: | This article addresses the problem of joint optimization of production and subcontracting of unreliable production systems. The production system considered presents a common problem in the pharmaceutical industry. It is composed of multiple production facilities with different capacities, each of which is capable of producing two different classes of medications (brand name and generic). The resort to subcontracting is double: first, it involves the quantity of products received on a regular basis in order to compensate for insufficient production capacity in existing facilities, second, when needed, urgent orders are also launched in order to reduce the risk of shortages caused by breakdowns of manufacturing facilities. Failures, repairs and urgent delivery times may be represented by any probability distributions.The objective is to propose a general control policy for the system under consideration, and to obtain, in the case of two facilities, optimal control parameters that minimize the total incurred cost for a specific level of the customer service provided. Given the complexity of the problem considered, an experimental optimization approach is chosen in order to determine the optimal control parameters. This approach includes experimental design, analysis of variance, response surface methodology and simulation modeling. It allows the accurate representation of the dynamic and stochastic behaviors of the production system and the assessment of optimal control parameters. Other control parameters which represent the subcontracting are introduced and three joint production/subcontracting control policies (general, urgent, regular) are compared to one another. The proposed joint production/regular subcontracting control policy involves a cost decrease of up to 20%, as compared to results obtained by Dror et al. 1], who used a simplified control policy in addition to a heuristic solution approach for a real case study. This policy offers not only cost savings, but is also easier to manage, as compared to that proposed by Dror et al. 1]. Numerical examples and a sensitivity analysis are also performed to illustrate the robustness of the proposed control policy and the solution approach. |
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| Keywords: | Production/subcontracting control Pharmaceutical industry Service level Simulation modeling Optimization Response surface methodology |
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