Article ID: | iaor2007173 |
Country: | United Kingdom |
Volume: | 19 |
Issue: | 5 |
Start Page Number: | 453 |
End Page Number: | 462 |
Publication Date: | Jul 2006 |
Journal: | International Journal of Computer Integrated Manufacturing |
Authors: | Wang C., Ghenniwa H., Shen W. |
Keywords: | production: FMS, heuristics |
This paper deals with the important and difficult scheduling problem of flexible manufacturing systems (FMS) with multi-operation parts and machines with partially overlapping capabilities. The scheduling problem of partially overlapping systems is shown to be a general form of many classical scheduling problem models and can be applied to several application domains such as distributed computing systems, machinery systems and/or robots. The quality of a schedule in this paper is measured by the minimization of part transfers and the makespan. Our approach adopts a divide-and-conquer strategy. First the problem is separated into three sub-problems based on the characteristics of the model. Then, implicit enumeration and heuristics algorithms are developed for the sub-problems. Experimental results show that the proposed solutions perform ‘well’ for a set of open shop benchmark problems and practically solve the partially overlapping scheduling problems at various sizes.