کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
1135420 | 956099 | 2012 | 10 صفحه PDF | دانلود رایگان |

Machine loading problem in a flexible manufacturing system (FMS) encompasses various types of flexibility aspects pertaining to part selection and operation assignments. The evolution of flexible manufacturing systems offers great potential for increasing flexibility by ensuring both cost-effectiveness and customized manufacturing at the same time. This paper proposes a linear mathematical programming model with both continuous and zero-one variables for job selection and operation allocation problems in an FMS to maximize profitability and utilization of system. The proposed model assigns operations to different machines considering capacity of machines, batch-sizes, processing time of operations, machine costs, tool requirements, and capacity of tool magazine. A genetic algorithm (GA) is then proposed to solve the formulated problem. Performance of the proposed GA is evaluated based on some benchmark problems adopted from the literature. A statistical test is conducted which implies that the proposed algorithm is robust in finding near-optimal solutions. Comparison of the results with those published in the literature indicates supremacy of the solutions obtained by the proposed algorithm for attempted model.
► We study optimum allocation of workload on machines in an FMS.
► We present an accurate and practical way to calculate system unbalance in an FMS.
► A mathematical model is proposed considering different parameters in machine loading.
► A genetic algorithm has been developed to solve the proposed model.
► Solving benchmark problems indicates supremacy of the proposed genetic algorithm.
Journal: Computers & Industrial Engineering - Volume 62, Issue 2, March 2012, Pages 469–478