Abstract
Confronted with high variety and low volume market demands, many companies, especially the Japanese electronics manufacturing companies, have reconfigured their conveyor assembly lines and adopted seru production systems. Seru production system is a new type of work-cell-based manufacturing system. A lot of successful practices and experience show that seru production system can gain considerable flexibility of job shop and high efficiency of conveyor assembly line. In implementing seru production, the multi-skilled worker is the most important precondition, and some issues about multi-skilled workers are central and foremost. In this paper, we investigate the training and assignment problem of workers when a conveyor assembly line is entirely reconfigured into several serus. We formulate a mathematical model with double objectives which aim to minimize the total training cost and to balance the total processing times among multi-skilled workers in each seru. To obtain the satisfied task-to-worker training plan and worker-to-seru assignment plan, a three-stage heuristic algorithm with nine steps is developed to solve this mathematical model. Then, several computational cases are taken and computed by MATLAB programming. The computation and analysis results validate the performances of the proposed mathematical model and heuristic algorithm.
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References
Asano S (1997) Internationalization of Japanese company and change of production system. Rikkyo Econ Rev 51(1):29–55. (in Japanese)
Asao U, Fujita E, Tamura Y (2004) The division of labor on the shop floor, and its social and institutional background in Japanese motor vehicle and electric industries from the viewpoint of Swedish experience. Douzieme Rencontre Internationale du Gerpisa, Paris
Asgari B, Yen LW (2009) Accumulated knowledge and technological progress in terms of learning rates: a comparative analysis on the manufacturing industry and the service industry in malaysia. Asian J Technol Innov 17(2):71–99
Benayoun R, Montgolfier JD, Tergny J, Laritchev O (1971) Linear programming with multiple objective functions: step method (stem). Math Program 1(1):366–375
Cesaní VI, Steudel HJ (2005) A study of labor assignment flexibility in cellular manufacturing systems. Comput Ind Eng 48(3):571–591
D&M Nikkei Mechanical (2003) The challenge of cano-part 3. D&M Nikkei Mechanical 588:70–73
Davis D, Kher HV, Wagner BJ (2009) Influence of workload imbalances on the need for worker flexibility. Comput Ind Eng 57(1):319–329
Davis D, Mabert VA (2000) Order dispatching and labor assignment in cellular manufacturing systems. Decis Sci 31(4):745–771
Ertay T, Ruan D (2005) Data envelopment analysis based decision model for optimal operator allocation in CMS. Eur J Oper Res 164(3):800–810
Estrada DC, Shukla A, Cochran DS (2000) Converting from moving assembly lines to cells. In: Proceedings of the third world congress on intelligent manufacturing processes and systems, MA, pp 28–30
Hopp W, Tekin E, Van OM (2004) Benefits of skill chaining in serial production lines with cross-trained workers. Manag Sci 50(1):83–98
Iravani SM, Kolfal B, Van OMP (2007) Call-center labor cross-training: it’s a small world after all. Manag Sci 53(7):1102–1112
Isa K, Tsuru T (2002) Cell production innovation in Japan: toward a new model for Japanese manufacturing?Ind Relat 41(4):548–578
Iwamuro H (2004) Cellular manufacturing system. Nikkan Kogyo Shimbun, Tokyo. (in Japanese)
Johnson DJ (2005) Converting from moving assembly lines to cells at sheet metal products: insights on performance improvements. Int J Prod Res 43(7):1483–1509
Kaku I, Gong J, Tang J, Yin Y (2009) Modeling and numerical analysis of line-cell conversion problems. Int J Prod Res 47(8):2055–2078
Kaku I, Murase Y, Yin Y (2008) A study on human-task-related performances in converting conveyor assembly line to cellular manufacturing. Eur J Ind Eng 2(1):17–34
Kher HV, Malhotra MK (1994) Acquiring and operationalizing worker flexibility in dual resource constrained job shops with worker transfer delays and learning losses. Int J Manag Sci 22(5):521–533
Kimura T, Yoshita M (2004) Cellular manufacturing runs into trouble when nothing is done. Nikkei Monozukuri 7:38–61. (in Japanese)
Kono H (2004) The aim of the special issue on seru manufacturing. IE Rev 45:4–5
Kuo Y, Yang T (2007) Optimization of mixed-skill multi-line operator allocation problem. Comput Ind Eng 53(3):386–393
Liu C, Li W, Lian J, Yin Y (2012) Reconfiguration of assembly systems from conveyor assembly line to serus. J Manuf Syst 31(3):312–325
Liu C, Lian J, Yin Y, Li W (2010) Seru seisan—an innovation of the production management mode in Japan. Asian J Technol Innov 18(2):89–113
Liu C, Stecke K, Lian J, Yin Y (2013) An implementation framework for Seru production. Int Trans Oper Res doi:10.1111/itor.12014
McDonald T, Ellis KP, Van AEM , Koelling CP (2009) Development and application of a worker assignment model to evaluate a lean manufacturing cell. Int J Prod Res 47(9):2427–2447
Miyake DI (2006) The shift from belt conveyor line to work-cell based assembly systems to cope with increasing demand variation in Japanese industries. Int J Automot Technol Manag 6(4):419–439
Molleman E, Slomp J (1999) Functional flexibility and team performance. Int J Prod Res 37(8):1837–1858
Noguchi H (2003) Production involution in Japan. Nikkan Kogyo Shimbun, Tokyo. (in Japanese)
Norman BA, Tharmmaphornphilas W, Needy KL, Bidanda B, Warner RC (2002) Worker assignment in cellular manufacturing considering technical and human skills. Int J Prod Res 40(6):1479–1492
Sakazume Y (2006) Conditions for successful implementation of assembly cells. Ind Eng Manag Syst 5(2):142–148
Sakikawa T (2005) HRM practices and operational/financial performance: evidence from cell production at Japanese electronics manufacturers. Ann Rep Econ, Nigata University 29:17–45
Sakikawa T (2006) HRM practices for Japanese cell production. Ann Rep Econ, Nigata University 30:1–29
Satoglu SI, Suresh NC (2009) A goal-programming approach for design of hybrid cellular manufacturing systems in dual resource constrained environments. Comput Ind Eng 56(2):560–575
Shinohara T (1995) Shocking news of the removal of conveyor systems: single-worker cellular manufacturing system. Nikkei Mech 459:20–38
Shinohara T (1997) Seru seisan mode: a great turning of manufacturing floor from the division of labor to the integration of labors. Nikkei Mech 497(1):39–41. (in Japanese)
Shirai K (2001) Cell production and managing human resources. In: Tsuru, T (ed) Innovation and evolution of production systems: diffusion of cell production among Japanese firms. Nihon Hyoron Sya, pp 87–121 (in Japanese)
Slomp J, Bokhorst JAC, Molleman E (2005) Cross-training in a cellular manufacturing environment. Comput Ind Eng 48:609–624
Stecke KE, Yin Y, Kaku I, Murase Y (2012) Seru: the organizational extension of JIT for a super-talent factory. Int J Strateg Decis Sci 3(1):106–119
Süer GA, Tummaluri RR (2008) Multi-period operator assignment considering skills, learning and forgetting in labour-intensive cells. Int J Prod Res 46(2):469–493
Takeuchi N (2006) Manufacturing methods illustrated: cell production system. JMA Management Center Inc., Tokyo (in Japanese).
Treleven M (1989) A review of dual resource constrained systems research. IIE Trans 21(3):279–287
Tsuru T (1997) Current trends in production systems and human resources management in the Japanese machinery industries. The Economic Research Institute of Japan Society for the Promotion of Machine Industry, Tokyo
Warner RC, Needy KL, Bidanda B (1997) Worker assignment in implementing manufacturing cells. In: Proceedings of the 1997 industrial engineering research conference. Miami Beach
Wemmerlov U, Johnson DJ (1997) Cellular manufacturing at 46 user plants: implementation experiences and performance improvements. Int J Prod Res 35(1):29–49
Yamada H, Kataoka T (2001) Unusual production revolution. (in Japanese)
Yagyuu S (2003) Synchronized cellular manufacturing system. Nikkan Kogyo Shimbunsha, Tokyo. (in Japanese)
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Liu, C., Yang, N., Li, W. et al. Training and assignment of multi-skilled workers for implementing seru production systems. Int J Adv Manuf Technol 69, 937–959 (2013). https://doi.org/10.1007/s00170-013-5027-5
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DOI: https://doi.org/10.1007/s00170-013-5027-5