Journal of the Korean Operations Research and Management Science Society (한국경영과학회지)

The Korean Operations Research and Management Science Society (한국경영과학회)
권호 표지

Integrated Layout Design in Cellular Flexible Assembly Systems

셀형 유연조립시스템에서의 통합 배치설계

  • 최영호 (LG-EDS 시스템 CALS and CIM 사업부) ;
  • 노인규 (한양대학교 산업공학과)
  • Published : 1997.12.01
Download PDF
⟨ Previous Next ⟩

Abstract

The major two steps required to design a cellular layout are cell formation and cell layout. Because of the differences between manufacturing and assembly operations, the logic of cell formation and cell layout between an FMS and an FAS is not the same. Since the time for the assembly operations is usualaly relatively short, the transfer time is thus very crucial for the performance of assembly systems. Transfore in a cellular FAS it is more important to eliminate backtracking operations in assembly planning, not to allow intercellular movements in cell formation, and to arrange machines according to assembly sequence in cell layout. This study presents a method for the integrated layout design in cellular FASs considering the characteristics of FAS, layout, and production factors.

Keywords

References

  1. Industrial Engineering v.19 no.10 Design and control of manufacturing cells Kinney Jr. H.D.;McGinnis, L.F.
  2. International Journal of Production Research v.20 Machine-part group formation in group formation: review and extension Kumar, K.R.;Nakornachai, V.
  3. Omega v.13 Meighted similarity measure heurastics for the group technology machine clusteing problem Mosier, C.T.;Taube, L.
  4. Journal of Operation Management v.6 no.2 Procedures for the part family/machine group identification problem in cellular manufacturing Wemmerlov, U,;Hyer, N.L.
  5. International Journal of Production Research v.24 no.5 A simulation comparison of group technology with traditional job shop manufacturing Flyin, B.B.;Jacobs, F.R.
  6. International Journal of Production Rearch v.31 no.5 Similarity and distance measures for cellular manufacturing: Part Ⅰ. A survey Shafer, S.M.;Rogers, D.F.
  7. International Journal Production Research v.27 no.10 A simulation study of part sequencing in a flexible assembly cell El-Tamini, A.M.;Suliman, S.M.A.;Williams, D.F.
  8. Omerga v.13 Weighted similarity measure heuristics for the group technology machine clustering problem Mosier, C.T.;Taube, L.
  9. Engineering Cost and Production Economics v.17 no.2 Estimating the effect of conversion to a group technology layout on the cost of material handling Shtub, A.
  10. Engineering Costs and Production Economics v.13 Capacity allocation and material flow in planning group technology cells Shtub, A.
  11. International Journal of Operations and Production Management v.13 no.2 An emprically based simulation study of functional versus cellular layouts with operationa overlapping Shafer, S.M.;Meredith, J.R.
  12. International Journal of Production Economics v.38 Layout design in group technology manufacturing Hassan, M.M.D.
  13. International Journal of Computer Integrated Manufacturing v.7 no.3 A huristic operation sequence-pattern identification method and its applications in the design of cellular flexible assembly system Ho, Y.C.;Moodie, C.L.
  14. Industrial Engineering v.7 no.5 Group technology Abou-Zeid, M.R.
  15. The Production Engineering v.50 no.4;5 Production flow analysis Burbidge, J.C.
  16. Omega v.20 no.4 Algorithms for grouping machine groups in GT Cheng, C.
  17. Omerga v.17 no.3 Cluster analysis in manufacturing cellular formation Chu, C.H.
  18. International Jurnal of Production Research v.28 no.12 Multiple routings and capacity considerations in group technology applications Nagi, R.;Havhalakis, G.;Proth, J.
  19. Interantional Journal of Production Research v.29 no.9 Machine capacity planning in group technology Sule, D.R.
  20. International Journal of Production Research v.26 no.9 Configuring cellular manufacturing systems Co. H.C.;Araar, A.
  21. Engineering Costs and Production Economics v.9 no.1-3 Algorithmic grouping of operations sequences Selvam, R.P.;Balasubramanian, K.N.
  22. IIE Trans actions v.22 no.1 Designing a cellular manufacturing system: a material flow approach based on operation sequences Vakharia, A.J.;Wemmerlov, U.
  23. International Journal of Production Research v.18 no.4 The use of similarity coefficients in production flow analysis DeWitte, J.
  24. International Journal of Production Research v.33 no.12 A sequence-based materials flow procedure for desinging manufacturing cells Verma, P.;Ding, F.Y.
  25. IEEE Trans-actions on Systems, Man and Cybernerics v.24 no.2 Group technology and cellular manufacturing Heragu, S.S.
  26. International Journal of Production Research v.31 no.7 Two sequence pattern, matching-based, flow analysis methods for multi flowlines layout design Ho, Y.C.;Lee, C.E.C.;Moodie, C.L.