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International Journal of Production Research Volume 53, 2015 - Issue 5
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Articles

Lot-splitting approach of a hybrid manufacturing system under CONWIP production control: a mathematical model

Canan AglanIndustrial Engineering, Marmara University, Istanbul, TurkeyCorrespondence[email protected]
&
Mehmet Bulent DurmusogluIndustrial Engineering, Istanbul Technical University, Istanbul, Turkey
Pages 1561-1583 | Received 06 Oct 2013, Accepted 17 Aug 2014, Published online: 15 Sep 2014

References

  • Ajorlou, S., and I. Shams. 2012. “Artificial Bee Colony Algorithm for CONWIP Production Control System in a Multi-product Multi-machine Manufacturing Environment.” Journal of Intelligent Manufacturing 24 (6): 1145–1156.
  • Alfieri, A., and A. Matta. 2010. “Mathematical Programming Representation of Pull Controlled Single-product Serial Manufacturing Systems.” Journal of Intelligent Manufacturing 23: 23–35.
  • Azzi, A., M. Faccio, A. Persona, and F. Sgarbossa. 2012. “Lot Splitting Scheduling Procedure for Makespan Reduction and Machine Capacity Increase in a Hybrid Flow Shop with Batch Production.” The International Journal of Advanced Manufacturing Technology 59: 775–786.10.1007/s00170-011-3525-x
  • Buckhin, J., and M. Masin. 2004. “Multi-objective Lot Splitting for a Single Product M-machine Flowshop Line.” IIE Transactions 36 (2): 191–202.
  • Bukchin, Y., M. Masin, and R. Kirshner. 2010. “Modeling and Analysis of Multi Objective Lot Splitting for N-product M-machine Flowshop Lines.” Naval Research Logistics 57: 354–366.
  • Cao, D., and M. Chen. 2005. “A Mixed Integer Programming Model for a Two Line CONWIP-based Production and Assembly System.” International Journal of Production Economics 95: 317–326.10.1016/j.ijpe.2004.01.002
  • Dastidar, S. G., and R. Nagi. 2007. “Batch Splitting in an Assembly Scheduling Environment.” International Journal of Production Economics 105: 372–384.10.1016/j.ijpe.2004.04.012
  • Durmusoglu, M. B., and S. I. Satoglu. 2011. “Axiomatic Design of Hybrid Manufacturing Systems in Erratic Demand Conditions.” International Journal of Production Research 49 (17): 5231–5261.
  • Feldmann, M., and D. Biskup. 2008. “Lot Streaming in a Multiple Product Permutation Flow Shop with Intermingling.” International Journal of Production Research 46 (1): 197–216.10.1080/00207540600930065
  • Feyzioglu, O., and H. Pierreval. 2009. “Hybrid Organization of Functional Departments and Manufacturing Cells in the Presence of Imprecise Data.” International Journal of Production Research 47 (2): 343–368.10.1080/00207540802425898
  • Framinan, J. M., P. L. Gonzalez, and R. Ruiz-Usano. 2003. “The CONWIP Production Control System: Review and Research Issues.” Production Planning & Control 14: 255–265.
  • Framinan, J. M., P. L. González, and R. Ruiz-Usano. 2006. “Dynamic Card Controlling in a CONWIP System.” International Journal of Production Economics 99: 102–116.10.1016/j.ijpe.2004.12.010
  • Geraghty, J., and C. Heavey. 2004. “A Comparison of Hybrid Push/Pull and CONWIP/Pull Production Inventory Control Policies.” International Journal of Production Economics 91 (1): 75–90.10.1016/S0925-5273(03)00210-X
  • Golany, B., E. M. Dar-el, and N. Zeev. 1999. “Controlling Shop Floor Operations in a Multi Family, Multi-cell Manufacturing Environment through Constant Work-in-process.” IIE Transactions 31: 771–781.
  • Herer, Y. T., and M. Masin. 1997. “Mathematical Programming Formulation of CONWIP Based Production Lines; and Relationships to MRP.” International Journal of Production Research 35 (4): 1067–1076.10.1080/002075497195542
  • Ho, J. C. 1995. “Flowshop Sequencing with Mean Flowtime Objective.” European Journal of Operational Research 81: 571–578.10.1016/0377-2217(93)E0353-Y
  • Hopp, W. J., and M. L. Spearman. 2008. Factory Physics. Singapore: Mc Graw Hill.
  • Ioannou, G. 2006. “Time Phased Creation of Hybrid Manufacturing Systems.” International Journal of Production Economics 102 (2): 183–198.10.1016/j.ijpe.2005.03.005
  • Ip, W. H., M. Huang, K. L. Yung, D. Wang, and X. Wang. 2007. “CONWIP Based Control of a Lamp Assembly Production Line.” Journal of Intelligent Manufacturing 18: 261–271.10.1007/s10845-007-0021-0
  • Jacobs, F. R., and D. J. Bragg. 1988. “Repetitive Lots: Flow-time Reductions through Sequencing and Dynamic Batch Sizing.” Decision Sciences. 19: 281–294.10.1111/deci.1988.19.issue-2
  • Kalir, A. A., and S. C. Sarin. 2003. “Constructing near Optimal Schedules for the Flow-shop Lot Streaming Problem with Sublot-attached Setups.” Journal of Combinatorial Optimization 7: 23–44.10.1023/A:1021942422161
  • Kher, H. V., M. K. Malhotra, and D. C. Steele. 2000. “The Effect of Push and Pull Lot Splitting Approaches on Lot Traceability and Material Handling Costs in Stochastic Flow Shop Environments.” International Journal of Production Research 38 (1): 141–160.10.1080/002075400189626
  • Kim, S. L., and D. Ha. 2003. “A JIT Lot-splitting Model for Supply Chain Management: Enhancing Buyer–Supplier Linkage.” International Journal of Production Economics 86: 1–10.10.1016/S0925-5273(03)00006-9
  • Kim, S., Y. H. Lee, T. Yang, and N. Park. 2008. “Robust Production Control Policies Considering WIP Balance and Setup Time in a Semiconductor Fabrication Line.” The International Journal of Advanced Manufacturing Technology 39: 333–343.10.1007/s00170-007-1208-4
  • Kumar, G., and S. Singhal. 2013. “Genetic Algorithm Optimization of Flow Shop Scheduling Problem with Sequence Dependent Setup Time and Lot Splitting.” International Journal of Engineering, Business and Enterprise Applications 4 (1): 62–71.
  • Kurz, M. E., and R. G. Askin. 2004. “Scheduling Flexible Flow Lines with Sequence-dependent Setup times.” European Journal of Operational Research 159: 66–82.10.1016/S0377-2217(03)00401-6
  • Lockwood, W. T., F. Mahmoodi, R. A. Ruben, and C. T. Mosier. 2000. “Scheduling Unbalanced Cellular Manufacturing Systems with Lot Splitting.” International Journal of Production Research 38 (4): 951–965.10.1080/002075400189239
  • Low, C., CM. Hsu, and K. I. Huang. 2004. “Benefits of Lot Splitting in Job-shop Scheduling.” The International Journal of Advanced Manufacturing Technology 24: 773–780.10.1007/s00170-003-1785-9
  • Lu, J. C., T. Yang, and C. Wang. 2011. “A Lean Pull System Design Analysed by Value Stream Mapping and Multiple Criteria Decision-making Method under Demand Uncertainty.” International Journal of Computer Integrated Manufacturing 24 (3): 211–228.10.1080/0951192X.2010.551283
  • Miltenburg, J. 2001. “One-piece Flow Manufacturing on U-shaped Production Lines: A Tutorial.” IIE Transactions 33 (4): 303–321.
  • Modrak, V. 2009. “Case on Manufacturing Cell Formation Using Production Flow Analysis.” International Journal of Mechanical Industrial and Aeroscope Engineering 3 (4): 243–248.
  • Moily, J. P. 1986. “Optimal and Heuristic Procedures for Component Lot-splitting in Multi-stage Manufacturing Systems.” Management Science 32 (1): 113–125.10.1287/mnsc.32.1.113
  • Monden, Y. 1993. Toyota Production System an Integrated Approach to Just in Time. Norcross: Engineering & Management Press.
  • Nicholas, J. M. 1998. Competitive Manufacturing Management. Irwin: McGraw-Hill.
  • Pimentel, C., F. Alvelos, A. Duarte, and J. Carvalho. 2010. “A Fast Heuristic for a Lot Splitting and Scheduling Problem of a Textile Industry.” Paper presented at the 5th conference on management and control of production logistics, Portugal, 120–125.
  • Raymond, S. L. 2006. Custom Kanban: Designing the System to Meet the Needs of Your Environment. New York: Productivity Press.
  • Riezebos, J. 2004. “Time Bucket Length and Lot-splitting Approach.” International Journal of Production Research 42 (12): 2325–2338.10.1080/00207540410001666242
  • Rother, M., and J. Shook. 1998. Learning to See: Value Stream Mapping to Add Value and Eliminate Muda. Cambridge, MA: The Lean Enterprise Institute.
  • Ruben, R. A. 1998. “Lot Splitting in Unbalanced Production Systems.” Decision Sciences 29 (4): 921–949.10.1111/deci.1998.29.issue-4
  • Ryan, S. M., and F. F. Choobineh. 2003. “Total WIP and WIP Mix for a CONWIP Controlled Job Shop.” IIE Transactions 35 (5): 405–418.10.1080/07408170304387
  • Santos, J., R. A. Wysk, and J. M. Torres. 2006. Improving Production with Lean Thinking. Wiley.10.1002/9781118984031
  • Sarin, S. C., and P. Jaiprakash. 2007. Flow Shop Lot Streaming. New York: Springer Science + Business Media.10.1007/978-0-387-47688-9
  • Sarin, S. C., A. A. Kalir, and M. Chen. 2008. “A Single-lot, Unified Cost-based Flow Shop Lot-streaming Problem.” International Journal of Production Economics 113: 413–424.10.1016/j.ijpe.2007.10.002
  • Satoglu, S. I., and N. C. Suresh. 2009. “A Goal-programming Approach for Design of Hybrid Cellular Manufacturing Systems in Dual Resource Constrained Environments.” Computers & Industrial Engineering 56 (2): 560–575.
  • Satoglu, S. I., M. B. Durmusoglu, and T. Ertay. 2010. “A Mathematical Model and a Heuristic Approach for Design of the Hybrid Manufacturing Systems to Facilitate One-piece Flow.” International Journal of Production Research 48 (17): 5195–5220.10.1080/00207540903089544
  • Sekine, K. 1992. One-piece Flow, Cell Design for Transforming the Production Process. Portland, OR: Productivity Press.
  • Simons Jr, J. V., M. E. Kraus, W. Mwangola, and G. Burke. 2012. “Conditional Lot Splitting to Avoid Setups While Reducing Flow Time.” American Journal of Operations Research 453–466.10.4236/ajor.2012.24054
  • Slomp, J., J. A. C. Bokhorst, and R. Germs. 2009. “A Lean Production Control System for High-variety/Low-volume Environments: A Case Study Implementation.” Production Planning and Control 20 (7): 586–595.10.1080/09537280903086164
  • Spearman, M. L., W. J. Hopp, and D. L. Woodruff. 1989. “A Hierarchical Control Architecture for Constant Work-inProcess (CONWIP) Production Systems.” Journal of Manufacturing and Operations Management 2: 147–171.
  • Spencer, M. S., and V. D. Guide. 1995. “An Exploration of the Components of JIT: Case Study and Survey Results.” International Journal of Operations and Production Management 15: 72–83.10.1108/01443579510083677
  • Suresh, N. C. 1991. “Partitioning Work Centers for Group Technology: Insights from an Analytical Model.” Decision Sciences 22 (4): 772–791.10.1111/deci.1991.22.issue-4
  • Suresh, N. C., and J. R. Meredith. 1994. “Coping with the Loss of Pooling Synergy in Cellular Manufacturing Systems.” Management Science 40 (4): 466–483.10.1287/mnsc.40.4.466
  • Wang, L., Y. Chen, T. Chen, C. Cheng, and C. Chang. 2013. “A Hybrid Flow Shop Scheduling Model Considering Dedicated Machines and Lot-splitting for the Solar Cell Industry.” International Journal of Systems Science 45 (10): 2055–2071. doi:10.1080/00207721.2012.762557.
  • Zhang, W., and M. Chen. 2001. “A Mathematical Programming Model for Production Planning Using CONWIP.” International Journal of Production Research 39 (12): 2723–2734.10.1080/00207540110048963
  • Zhao, Y., H. Wang, X. Xu, and W. Wang. 2010. “A New Hybrid Parallel Algorithm for Consistent Sized Batch Splitting Job Shop Scheduling on Alternative Machines with Forbidden Intervals.” International Journal of Advanced Manufacturing Technology 48: 1091–1105.

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