Design of cellular manufacturing systems with assembly considerations

This research proposes incorporating assembly aspects associated with a product into the design of Cellular manufacturing System (CMS). The literature on CMS design implicitly assumes that finished part is the end product by itself. In practice, often, manufacturers produce parts which are assembled into a finished product. The methodology employs a part-subassembly matrix derived from the product structure in addition to the part-machine matrix. A mathematical programming model is developed which determines an assignment of parts, machines and subassemblies to manufacturing cells. The proposed model employs a new similarity coefficient between part, machine and subassembly. The model resulted in a nonlinear program with 0-1 variables. A case study has been analyzed based on a published part-machine matrix and a randomly generated product structure. The analysis reveals that it may be required to forego some of the efficiencies of Group Technology (GT) in order to achieve integration of assembly operations with production of parts. From a practical stand point of view it is preferred to have a system design which has a mix of GT and integration efficiencies, compared to a design which outperforms on GT criteria and completely lacks integration of assembly operations with production of parts.

[1]  Leon S. Lasdon,et al.  Optimization Theory of Large Systems , 1970 .

[2]  Divakar Rajamani,et al.  Integrated design of cellular manufacturing systems in the presence of alternative process plans , 1990 .

[3]  Ronald G. Askin,et al.  A Hamiltonian path approach to reordering the part-machine matrix for cellular manufacturing , 1991 .

[4]  Chao-Hsien Chu,et al.  Recent advances in mathematical programming for cell formation , 1995 .

[5]  Jun Wang,et al.  Formation of machine cells and part families: A modified p-median model and a comparative study , 1997 .

[6]  Jeffrey E. Schaller,et al.  A methodology for integrating cell formation and production planning in cellular manufacturing , 1998, Ann. Oper. Res..

[7]  Warren J. Boe,et al.  A close neighbour algorithm for designing cellular manufacturing systems , 1991 .

[8]  Paul J. Schweitzer,et al.  Problem Decomposition and Data Reorganization by a Clustering Technique , 1972, Oper. Res..

[9]  Ronald G. Askin,et al.  A graph partitioning procedure for machine assignment and cell formation in group technology , 1990 .

[10]  T. Narendran,et al.  An assignment model for the part-families problem in group technology , 1990 .

[11]  Allan S. Carrie,et al.  Numerical taxonomy applied to group technology and plant layout , 1973 .

[12]  Donald H. Liles,et al.  Planning, Design, and Analysis of Cellular Manufacturing Systems , 1995 .

[13]  W. E. Wilhelm,et al.  Integrating design and planning considerations in cellular manufacturing , 1998, Ann. Oper. Res..

[14]  N.-E. Dahel,et al.  Designing flexibility into cellular manufacturing systems , 1993 .

[15]  Asoo J. Vakharia,et al.  A methodology for designing flexible cellular manufacturing systems , 1997 .

[16]  A. Kusiak The generalized group technology concept , 1987 .

[17]  Rakesh Nagi,et al.  An integrated formulation of manufacturing cell formation with capacity planning and multiple routings , 1998, Ann. Oper. Res..

[18]  Asoo J. Vakharia,et al.  Cell formation in group technology: review, evaluation and directions for future research , 1998 .

[19]  Urban Wemmerlöv,et al.  CELLULAR MANUFACTURING AT 46 USER PLANTS : IMPLEMENTATION EXPERIENCES AND PERFORMANCE IMPROVEMENTS , 1997 .

[20]  Nancy Lea Hyer,et al.  Cellular manufacturing in the U.S. industry: a survey of users , 1989 .

[21]  Fred W. Glover,et al.  Further Reduction of Zero-One Polynomial Programming Problems to Zero-One linear Programming Problems , 1973, Oper. Res..

[22]  Philip M. Wolfe,et al.  Selection of a Threshold Value Based on Material Handling Cost in Machine-Component Grouping , 1987 .

[23]  S. Viswanathan A new approach for solving the P-median problem in group technology , 1996 .

[24]  Louis A. Martin-Vega,et al.  Industrial perspective on research needs and opportunities in manufacturing assembly , 1995 .

[25]  N. Singh,et al.  Design of cellular manufacturing systems: An invited review , 1993 .

[26]  J. King Machine-component grouping in production flow analysis: an approach using a rank order clustering algorithm , 1980 .

[27]  Jerry C. Wei,et al.  Commonality analysis: A linear cell clustering algorithm for group technology , 1989 .

[28]  Andrew Kusiak,et al.  Grouping of parts and components in flexible manufacturing systems , 1986 .

[29]  Nancy Lea Hyer,et al.  Research issues in cellular manufacturing , 1987 .

[30]  Fred W. Glover,et al.  Technical Note - Converting the 0-1 Polynomial Programming Problem to a 0-1 Linear Program , 1974, Oper. Res..

[31]  Basheer M. Khumawala,et al.  Group Technology and Cellular Manufacturing: An Overview , 1986 .

[32]  Jerry C. Wei,et al.  A mathematical programming approach for dealing with exceptional elements in cellular manufacturing , 1992 .

[33]  S. Ng Worst-case analysis of an algorithm for cellular manufacturing , 1993 .

[34]  Andrew Kusiak,et al.  Branching algorithms for solving the group technology problem , 1991 .

[35]  F. Boctor A Jinear formulation of the machine-part cell formation problem , 1991 .