DESIGN OF CELLULAR MANUFACTURING SYSTEM UNDER DYNAMIC ENVIRONMENT FOR AN AUTO-COMPONENT MANUFACTURING INDUSTRY

Authors

  • Jayakumar V School of Mechanical and Building Sciences, VIT University, Vellore, Tamil Nadu - 632 014, India
  • Raju R Department of Industrial Engineering, Anna University Chennai, Chennai, Tamil Nadu - 600 023,

Keywords:

Cellular Manufacturing System, Dynamic Production Requirements, Reconfiguration, Routing Flexibility , Case Study

Abstract

Shorter product life-cycles, unpredictable demand, and customized products have forced manufacturing firms to operate more efficiently and effectively in order to adapt to changing requirements. Traditional manufacturing systems, such as job shops and flow lines, cannot handle such environments. Cellular manufacturing system (CMS), which incorporates the flexibility of job shops and the high production rate of flow lines, has been seen as a promising alternative for such cases. The classical CMS approach is under a consideration that the products mix and demand do not change over the planning horizon i.e., the production requirement is assumed to be static in nature. This paper is aimed to develop a model and a solution approach for designing cellular manufacturing systems that addresses these shortcomings by assuming dynamic production requirements in which a planning horizon can be divided into smaller periods where each period has different product mix and demand requirements. A mathematical model and an optimal solution procedure is developed simulating the exact situation of dynamic environment with routing flexibility considering all the parameters and constraints. A case study was conducted in auto-components manufacturing industry which is a batch production industry located in Ambattur Industrial Estate, Chennai.  In this paper, a solution methodology of best possible cell formation using LINGO 11.0 is presented and a critical analysis is made for converting functional layout into CMS incorporating realistic constraints and integrated approach.

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References

Wemmerlov U and Johnson D (1997), “Cellular Manufacturing at 46 User Plants: Implementation Experiences and Performance Improvements,” International Journal of Production Research, Vol. 35, 29–49.

Rheault M, Drolet J and Abdulnour D (1995), “Physically Reconfigurable Virtual Cells: A Dynamic Model for a highly Dynamic Environment,” Computers and Industrial Engineering, Vol. 29, 221–225.

Safaei N and Tavakkoli-Moghaddam R (2009), “Integrated Multi-period Cell Formation and Subcontracting Production Planning in Dynamic Cellular Manufacturing,” International Journal of Production Economics, Vol. 42, 214-229.

Chen M (1998), “A Mathematical Programming Model for Systems Reconfiguration in a Dynamic Cellular Manufacturing environment,” Annals of Operations Research, Vol.77 (1), 109-128.

Song S and Hitomi K (1996), “Integrating the Production Planning and Cellular Layout for Flexible Cellular Manufacturing,” Production Planning and Control, Vol. 7(6), 585-593.

Wilhelm W, Chiou C and Chang D (1998), “Integrating Design and Planning Considerations in Cellular Manufacturing,” Annals of Operations Research, Vol. 77(1), 97-107.

Harahalakis G, Nagi R and Proth J (1990), “An Efficient Heuristic in Manufacturing Cell Formation to Group Technology Applications,” International Journal of Production Research, Vol. 28(1), 185-198.

Mungwatanna A (2000), “Design of Cellular Manufacturing Systems for Dynamic and Uncertain Production Requirement with presence of Routing Flexibility,” PhD Dissertation, Blacksburg State University Virginia.

Chen M and Cao D (2004), “Coordinating Production Planning in Cellular Manufacturing Environment using Tabu Search,” Computers and Industrial Engineering, Vol. 46,571-582.

Ioannou G (2006), “Time-phased Creation of Hybrid Manufacturing Systems,” International Journal of Production Economics, Vol. 102, 183-198.

Schaller J (2007), “Designing and Redesigning Cellular Manufacturing Systems to handle Demand Changes,” Computers and Industrial Engineering, Vol. 53, 478-490.

Kioon S A, Bulgak A A and Bektas T (2009), “Integrated Cellular Manufacturing Systems Design with Production Planning and Dynamic System Reconfiguration,” European Journal of Operational Research, Vol. 192, 414–428.

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Published

2010-12-01

How to Cite

[1]
“DESIGN OF CELLULAR MANUFACTURING SYSTEM UNDER DYNAMIC ENVIRONMENT FOR AN AUTO-COMPONENT MANUFACTURING INDUSTRY”, JME, vol. 5, no. 4, pp. 293–299, Dec. 2010, Accessed: Dec. 23, 2024. [Online]. Available: https://smenec.org/index.php/1/article/view/450

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