A DECOMPOSITION SCHEDULING METHOD FOR OPERATING FLEXIBLE MANUFACTURING SYSTEMS

被引:1
作者
HIRABAYASHI, N
NAGASAWA, H
NISHIYAMA, N
机构
[1] Department of Industrial Engineering, College of Engineering, University of Osaka Prefecture, Sakai, Osaka
来源
INTERNATIONAL JOURNAL OF PRODUCTION RESEARCH | 1994年 / 32卷 / 01期
关键词
D O I
10.1080/00207549408956922
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
A 'decomposition scheduling method' is proposed for operating a flexible manufacturing system with small buffer capacity. It is made clear that the optimum schedule obtained by using an optimum scheduling algorithm, i.e. the Johnson or Jackson rule to minimize makespan for a 2-machine FMS, requires too large an amount of buffer capacity to realize. In the decomposition scheduling method, a set of unscheduled jobs are decomposed into several sets of jobs and the optimum subschedules are derived independently for each set of jobs. A near-optimum schedule is obtained by connecting these sub-schedules arbitrarily. The schedule obtained through the decomposition scheduling method gives a high degree of approximation in the system utilization and dramatically reduces the buffer capacity.
引用
收藏
页码:161 / 178
页数:18
相关论文
共 8 条
  • [1] Ashour S., A decomposition approach for the machine scheduling problem, International Journal of Production Research, 6, pp. 109-122, (1967)
  • [2] Chang Y., Matsuo H., Sullivan R.S., A bottleneck-based beam search for job scheduling in a flexible manufacturing system, International Journal of Production Research, 27, pp. 1949-1961, (1989)
  • [3] Deogun J.S., On scheduling with ready times to minimize mean Row time, Computer Journal, 26, pp. 320-328, (1983)
  • [4] Jackson J.R., An extension of Johnson’s results on job-lot scheduling, Naval Research Logistics Quarterly, 3, pp. 201-203, (1956)
  • [5] Johnson S.M., Optimal two- and three-stage production schedules with setup times included, Naval Research Logistics Quarterly, 1, pp. 61-68, (1954)
  • [6] Nagasawa H., Nishiyama N., A study on random sample scheduling, Journal of Japan Industrial Management Association, 38, pp. 236-242, (1987)
  • [7] Shanthikumar J.G., Wu Y.B., Decomposition approaches in permutation scheduling problems with application to the M-machine flow shop scheduling problems, European Journal of Operational Research, 19, pp. 125-141, (1985)
  • [8] Yao D.D., Buzacott J.A., Models of flexible manufacturing systems with limited local buffers, International Journal of Production Research, 24, pp. 107-118, (1986)
1