Browse > Article

Forming Part Families by Using Genetic Algorithm and Designing Machine Cells under Demand Changes  

Jeon, Geon-Wook (Department of Operations Research, Korea National Defense University)
Publication Information
Journal of Korean Society of Industrial and Systems Engineering / v.28, no.3, 2005 , pp. 65-74 More about this Journal
Keywords
roup technology; Cellular manufacturing; Demand changes, Cell design; Genetic algorithm;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Atmani, A., Lashkari, R.S., and Caron, R.J.,; 'A mathematical programming approach to joint cell formation and operation allocation in cellular manufacturing,' International Journal of Production Research, 33(1) 1-15, 1995   DOI   ScienceOn
2 Gunasingh, K.R. and Lashkari, R.S.,; 'The cell formation problem in cellular manufacturing systems-A sequential modelling approach,' Computers and Industrial Engineering, 16(4) 469-476, 1989   DOI   ScienceOn
3 Gupta, T.,; 'Design of manufacturing cells for flexible environment considering alternative routing,' International Journal of Production Research, 31(6) 1259-1273, 1993   DOI   ScienceOn
4 Jeon, G., Kamrani, A.K., Leep, H.R., and Parsaei, H.R.,; 'A new similarity coefficient based on alternative routes during machine failure,' Kamrani, A.K. and Logendran, R. (Editors), Group Technology & Cellular Manufacturing Methodologies & Applications, Gordon and Breach Science Publishers, Amsterdam, Netherlands, pp.25-54, 1998
5 McAuley, J.,; 'Machine grouping for efficient production,' The Production Engineer, 51 53-57, 1972
6 Rajamani, D., Singh, N., and Aneja, Y.P.,; 'Integrated design of cellular manufacturing systems in the presence of alternative process plans,' International Journal of Production Research, 28(8) 1541-1554, 1990   DOI
7 Rajamani, D., Singh, N., and Aneja, Y.P.,; 'Selection of parts and machines for cellularization A mathematical programming approach,' European Journal of Operational Research, 62 47-54, 1992b   DOI   ScienceOn
8 Sankaran, S.,; 'Multiple objective decision making approach to cell formation A goal programming Model,' Mathematical Computational Modeling, 13(9) 71-82, 1990
9 Vakharia, A.J. and Wemmerlo, U.,; 'Designing a cellular manufacturing system A materials flow approach based on operation sequences,' IIE Transactions, 22(1) 84-97, 1990   DOI
10 Shafer, S.M. and Rogers, D.F.,; 'A goal programming approach to the cell formation problem,' Journal of Operations Management, 10(1) 28-43, 1991   DOI   ScienceOn
11 Gupta, T. and Seifoddini, H.,; 'Production data based similarity coefficient for machine- component grouping decisions in the design of a cellular manufacturing system,' International Journal of Production Research, 28(7) 1247-1269, 1990   DOI
12 Won, Y.K. and Lee, K.G.,; 'Group technology cell formation considering operation sequences and production volumes,' International Journal of Production Research, 39(3) 2755-2768, 2001   DOI   ScienceOn
13 Selvam, R.P. and Balasubramanian, K.N., 'Algorithmic grouping of operation sequences,' Engineering Costs and Production Economics, 9 125-134   DOI   ScienceOn
14 Carrie, A.S.,; 'Numerical taxonomy applied to group technology and plant layout,' International Journal of Production Research, 11(4) 399-416, 1973   DOI   ScienceOn
15 Kamrani, A.K. and Parsaei, H.R.,; 'A group technology based methodology for machine cell formation in a computer integrated manufacturing environment,' Computers and Industrial Engineering, 24(3) 431-447, 1993   DOI   ScienceOn
16 Kusiak, A. and Cho M.,; 'Similarity coefficient algorithms for solving the group technology problem,' International Journal of Production Research, 30(11) 2633-2646, 1992   DOI   ScienceOn
17 Moussa, S.E. and Kamel, M.S.,; 'A direct method for cell formation and part-machine assignment based on operation sequences and processing time similarity,' Engineering Design & Automation, 2(2) 141-155, 1996
18 Rajamani, D., Singh, N., and Aneja, Y.P.,; 'A model for cell formation in manufacturing systems with sequence dependence,' International Journal of Production Research, 30(6) 1227-1235, 1992a   DOI   ScienceOn
19 Kamrani, A.K., Parsaei, H.R., and Leep, H.R.,; 'Optimum resource planning for manufacturing cells under resource and demand constraints,' Engineering Design & Automation, 1(2) 121-136, 1995
20 Won, Y.K.,; 'Two-phase approach to GT cell formation using efficient p-median formulations,' International Journal of Production Research, 38(7) 1601-1613, 2000   DOI   ScienceOn
21 Adil, G.K., Rajamani, D., and Strong, D.,; 'A mathematical model for cell formation considering investment and operational cost,' European Journal of Operational Research, 69 330-341, 1993   DOI   ScienceOn
22 Choobineh, F.,; 'A framework for the design of cellular manufacturing systems,' International Journal of Production Research, 26(7) 1161-1172, 1988   DOI   ScienceOn
23 Singh, N.,; 'Design of cellular manufacturing systems An invited review,' European Journal of Operational Research, 69 284-291, 1993   DOI   ScienceOn
24 Shunk, D.L.,; 'Group technology provides organized approach to realizing benefits of CIMS,' Industrial Engineering, 17 74-81, 1985
25 Tam, K.Y.,; 'An operation sequence based similarity coefficient for part families formations,' Journal of Manufacturing Systems, 9(1) 55-68, 1990   DOI