References
- Al-Zhheri, A., L. Luong, and K. Xing. 2012. “The Role of Randomness of a Manual Assembly Line with Walking Workers on Model Validation.” 45thCIRP Conference on Manufacturing Systems 2012. Procedia CIRP 3: 233–238.
- Al-Zuheri, A. 2013. “Modelling and Optimisation of Walking Worker Assembly Line for Productivity and Ergonomics Improvement.” PhD thesis, University of South Australia.
- Al-Zuheri, A., L. Luong, and K. Xing. 2012. “Prediction and Analysis Impact of Operational Design of a Manual Assembly System with Walking Workers on Performance.” International Journal of Computer Integrated Manufacturing 26 (6): 54–56.
- Anon. 1985. “Developing Multi-function Workers.” Wire Journal International 18 (1): 20–21.
- Armbruster, D., and E. Gel. 2006. “Bucket Brigades Revisited: Are They Always Effective?” European Journal of Operational Research 172 (1): 213–229.10.1016/j.ejor.2004.08.044
- Bartholdi III, J. J., L. A. Bunimovich, and D. D. Eisenstein. 1999. “Dynamics of Two- and Three-worker ‘Bucket Brigade’ Production Lines.” Operations Research 47 (3): 488–491.10.1287/opre.47.3.488
- Bartholdi III, J. J., and D. D. Eisenstein. 1996. “A Production Line That Balances Itself.” Operations Research 44 (1): 21–34.10.1287/opre.44.1.21
- Bartholdi III, J. J., and D. D. Eisenstein. 2005. “Using Bucket Brigades to Migrate from Craft Manufacturing to Assembly Lines.” Manufacturing & Service Operations Management 7 (2): 121–129.
- Bartholdi III, J. J., D. D. Eisenstein, and R. D. Foley. 2001. “Performance of Bucket Brigades When Work is Stochastic.” Operations Research 49 (5): 710–719.10.1287/opre.49.5.710.10609
- Bartholdi III, J. J., D. D. Eisenstein, and Y. F. Lim. 2009. “Deterministic Chaos in a Model of Discrete Manufacturing.” Naval Research Logistics 56 (4): 293–299.10.1002/nav.v56:4
- Black, J. T., and B. J. Schroer. 1997. “Simulation of an Apparel Assembly Cell with Walking Workers and Decouplers.” Journal of Manufacturing System 12 (2): 170–180.
- Bratcu, A. 2002. “On the Modelling of Bucket Brigades.” Proceedings of the 15th Triennial International Federation of Automatic Control (IFAC) World Congress, 21–26. Barcclona, Spain.
- Bratcu, A. I., and A. Dolgui. 2009. “Some New Results on the Analysis and Simulation of Bucket Brigades (Self-balancing Production Lines).” International Journal of Production Research 47 (2): 369–387.10.1080/00207540802426128
- Bukchin, Y., and Y. Cohen. 2013. “Minimising Throughput Loss in Assembly Lines due to Absenteeism and Turnover via Work-sharing.” International Journal of Production Research 51 (20): 6140–6151.10.1080/00207543.2013.807374
- Liao, S. L., S. P. Yi, and Q. X. Gao. 2012. “Modeling and Simulation for Heterogeneous Walking-worker Production Line Based on Overtaking Mechanism.” Computer Integrated Manufacturing Systems 18 (3): 540–549.
- Liu, C. G., W. J. Li, J. Lian, and Y. Yin. 2012. “Reconfiguration of Assembly Systems: From Conveyor Assembly Line to Serus.” Journal of Manufacturing Systems 31 (3): 312–325.10.1016/j.jmsy.2012.02.003
- Mendes, L., and J. Machado. 2015. “Employees’ Skills, Manufacturing Flexibility and Performance: A Structural Equation Modelling Applied to the Automotive Industry.” International Journal of Production Research 53 (13): 4087–4101.10.1080/00207543.2014.993772
- Miltenburg, G. J. 2001. “One-piece Flow Manufacturing on U-shaped Production Lines: A Tutorial.” IIE Transactions 33 (4): 303–321.
- Miltenburg, G. J., and J. Wijngaard. 1994. “The U-line Line Balancing Problem.” Management Science 40 (10): 1378–1388.10.1287/mnsc.40.10.1378
- Nakade, K., and R. Nishiwaki. 2008. “Optimal Allocation of Heterogeneous Workers in a U-shaped Production Line.” Computers & Industrial Engineering 54 (3): 432–440.
- Nakade, K., and K. Ohno. 1999. “An Optimal Worker Allocation Problem for a U-shaped Production Line.” International Journal of Production Economics 60 (1): 353–358.10.1016/S0925-5273(98)00145-5
- Ohno, K., and K. Nakade. 1997. “Analysis and Optimization of a U-shaped Production Line.” Journal of the Operations Research Society of Japan 40 (1): 90–104.
- Sparling, D., and J. Miltenburg. 1998. “The Mixed-model U-line Balancing Problem.” International Journal of Production Research 36 (2): 485–501.10.1080/002075498193859
- Suzaki, K. 1987. The New Manufacturing Challenge Techniques for Continuous Improvement. New York: Macmillan.
- Wang, Q., and N. Bennett. 2014. “Integration of Lean Approaches to Manage a Manual Assembly System.” Open Journal of Social Sciences 2: 226–231.10.4236/jss.2014.29038
- Wang, Q., and C. R. Chatwin. 2003. “Comparative Dynamic Performance of Token Passing and CSMA/CD LANs for a Flexible Manufacturing System.” International Journal of Computer Integrated Manufacturing 6 (6): 439–454.10.1080/0951192031000080515
- Wang, Q., and C. R. Chatwin. 2005. “Key Issues and Developments in Modelling and Simulation-based Methodologies for Manufacturing Systems Analysis, Design and Performance Evaluation.” The International Journal of Advanced Manufacturing Technology 25 (11–12): 1254–1265.10.1007/s00170-003-1957-7
- Wang, Q., S. Lassalle, A. R. Mileham, and G. W. Owen. 2009. “Analysis of a Linear Walking Worker Line Using a Combination of Computer Simulation and Mathematical Modeling Approaches.” Journal of Manufacturing Systems 28 (2–3): 64–70.10.1016/j.jmsy.2009.12.001
- Wang, Q., G. W. Owen, and A. R. Mileham. 2007. “Determining Numbers of Workstations and Operators for a Linear Walking-worker Assembly Line.” International Journal of Computer Integrated Manufacturing 20 (1): 1–10.
- Zavadlev, E., J. O. McClain, and L. J. Thomas. 1996. “Self-buffering, Self-balancing, Self-flushing Production Lines.” Management Science 42 (8): 1151–1164.10.1287/mnsc.42.8.1151