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 ABSTRACT
This paper provides a novel method for detecting bottlenecks in manufacturing systems and the shifting of these bottlenecks. All manufacturing systems are constrained by one or more bottlenecks. Improving the bottleneck will improve the whole system. Yet, finding the bottleneck is no trivial task. Furthermore, the system may change over time or due to random events, and subsequently the bottleneck may shift from one machine to another machine. The shifting bottleneck detection method determines the bottleneck based on the duration a machine is active without interruption. The method is very robust, easy to apply and able to detect the primary and secondary bottlenecks in a wide range of production systems. This allows the use of simulation to predict bottlenecks for both steady state and variable systems. The measurement of the likelihood of a machine being the bottleneck aids in the decision-making regarding the allocation of the available resources.
REFERENCES
Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.
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1
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|
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2
|
Blackstone, J. H. 2001. Theory of constraints - a status report. International Journal of Production Research, 39(6), 1053--1080.
|
| |
3
|
Chiang, S.-Y., Kuo, C.-T., and Meerkov, S. M. 1998. Bottlenecks in Markovian Production Lines: A Systems Approach. IEEE Transactions on Robotics and Automation, 14(2), 352--359.
|
| |
4
|
Chiang, S.-Y., Kuo, C.-T., and Meerkov, S. M. 2002. c-Bottlenecks in Serial Production Lines: Identification and Application. Mathematical Problems in Engineering, to appear 2002.
|
| |
5
|
|
| |
6
|
Goldratt, E. M. 1992. The Goal: A Process of Ongoing Improvement. North River Press.
|
| |
7
|
|
| |
8
|
Kubota, F., Sato, S., and Nakano, M. 1999. Enterprise Modeling and Simulation Platform Integrated Manufacturing System Design and Supply Chain. In IEEE Conference on Systems, Man, and Cybernetics, ed., 511--515, Tokyo, Japan.
|
| |
9
|
Kuo, C.-T., Lim, J.-T., and Meerkov, S. M. 1996. Bottlenecks in Serial Production Lines: A System-Theoretic Approach. Mathematical Problems in Engineering, 2, 233--276.
|
| |
10
|
|
| |
11
|
Lawrence, S. R., and Buss, A. H. 1994. Shifting Production Bottlenecks: Causes, Cures, and Conundrums. Journal of Production and Operations Management, 3(1), 21--37.
|
| |
12
|
Lawrence, S. R., and Buss, A. H. 1995. Economic Analysis of Production Bottlenecks. Mathematical Problems in Engineering, 1(4), 341--369.
|
| |
13
|
Moss, H. K., and Yu, W. B. 1999. Toward the Estimation of Bottleneck Shiftiness in a Manufacturing Operation. Production and Inventory Management Journal, 40(2), 53--58.
|
| |
14
|
Nakano, M., Sugiura, N., Tanaka, M., and Kuno, T. 1994. ROPSII: Agent Oriented Manufacturing Simulator on the basis of Robot Simulator. In Japan-USA Symposium on Flexible Automation, ed., 201--208, Kobe, Japan.
|
| |
15
|
|
| |
16
|
Uzsoy, R., and Wang, C.-S. 2000. Performance of decomposition proceedures for job shop scheduling problems with bottleneck machines. International Journal of Production Research, 38(6), 1271--1286.
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