g Layout at Steward, Inc. Production and Inventory Management Journal, 36(3):37-42, (1995).
Singh, N. and Rajamaani, D. Cellular Manufacturing Systems: Design, Planning and Control. Chapman and Hall, New York, (1996).
Wemmerlov, U. and Hyer, N. Cellular Manufacturing in the US Industry: A Survey of Users. International Journal of Production Research, 27(9):1511-1530, (1989).
Suresh, N. and Meredith, J. Coping with the Loss of Pooling Synergy in Cellular Manufacturing Systems. Management Science, 40(4):466-483, (1994).
Greene, T. and Sadowski, R. A Review of Cellular Manufacturing Assumptions, Advantages, and Design Techniques. Journal of Operations Management, 4(2):85-97,(1984).
Shafer, S. and Charnes, J. . Cellular versus Functional Layouts under a Variety of Shop Operating Conditions. Decision Sciences, 24(3):665-682, (1994).
Chandrasekharan, M. and Rajagopalan, R. ZODIAC: An Algorithm for Concurrent Formation of Part Families and Machine Cells. International Journal of Production Research, 25(6):451-464, (1987).
Howard, M. and Newman, R. From Job Shop to Just-in-Time-A Successful Conversion. Production and Inventory Management Journal, 34(3):70-74, (1993).
Levasseur, G., Helms, M. and Zink, A. A Conversion from a Functional to a Cellular Manufacturing Layout at Steward, Inc. Production and Inventory Management Journal, 36(3):37-42, (1995).
Baker. K. R., Introduction to Sequencing and Scheduling, John Wiley & Sons, New York, (1974).
Baker, K.R., Scheduling groups of jobs in the two machine flow shop, Mathematical and Computer Modeling, Vol. 13, P.P. 29–36, (1990).
Jabal Ameli MS, Arkat J, Barzinpour F .Modelling the effects of machine breakdowns in the generalized cell formation problem. Int J Adv Manuf Tech 39:838–850 (2008).
Reisman A, Kumar A, Motwani J, Cheng C .Cellular manufacturing: a statistical review of the literature. Oper Res 45:508–520 (1997).
Selim HM, Askin RG, Vakharia AJ Cell formation in group technology: review, evaluation and directions for future research. Comput Ind Eng 34:3–20 (1998).
Mahadavi I, Paydar MM, Solimanpur M, Hidarzade A Genetic algorithm approach for solving a cell formation problem in cellular manufacturing. Expert Syst Appl 36:6598–6604 (2009).
Li X, Baki MF, Aneja YP. An ant colony optimization metaheuristic for machine—part cell formation problems. Comput Oper Res 37:2071–2081 (2010).
Chandrasekharan MP, Rajagopalan R .A multidimensional scaling algorithm for group layout in cellular manufacturing. Int J Prod Econ 32:16–65 (1993).
Jajodia S, Minis I, Harhalakis G, Proth J .CLASS: computerized layout solutions using simulated annealing. Int J Prod Res 30(1):95–108 (1992).
Salum L .The cellular manufacturing layout problem. Int J Prod Res 38(5):1053–1069 (2000).
Urban TL, Chiang W, Russell R .The integrated machine allocation and layout problem. Int J Prod Res 38(13):2911–2930 (2000).
Arvindh B, Irani A . Cell formation: the need for an integrated solution of subproblems. Int J Prod Res 32(5):1197– 1218 (1994).
Akturk MS .A note on the within-cell layout problem based on operation sequences. Prod Plan Control 7(1):99–103 (1996).
Chiang CP, Lee SD . Joint determination of machine cells and linear intercell layout. Comput Oper Res 31:1603–1619 (2004).
Mahdavi I, Shirazi B, Paydar MM . A flow matrix-based heuristic algorithm for cell formation and layout design in cellular manufacturing system. Int J Adv Manuf Tech 39:943–953 (2008).
Ahi A, Aryanezhad MB, Ashtiani B, Makui A .A novel approach to determine cell formation, intracellular machine layout and cell layout in the CMS problem based on TOPSIS method. Comput Oper Res 36:1478–1496 (2009).
Wu X, Chu CH, Wang Y, Yan W .Concurrent design of cellular manufacturing systems: a genetic algorithm approach. Int J Prod Res 44(6):1217–1241 (2006).
Sridhar J, Rajendran C .Scheduling in a cellular manufacturing system: a simulated annealing approach. Int J Prod Res 31 (12):2927–2945 (1993).
Atmani A, Lashkari RS, Caron RJ .A mathematical programming approach to joint cell formation and operation allocation in cellular manufacturing. Int J Prod Res 31(1):1–15 (1995).
Solimanpur M, Vrat P, Shankar R .A heuristic to minimize makespan of cell scheduling problem. Int J Prod Econ 88:231– 241 (2004).
Franca PM, Gupta JND, Mendes AS, Moscato P, Veltink KJ . Evolutionary algorithms for scheduling a flow shop manufacturing cell with sequence dependent family setups. Comput Ind Eng 48:491–506 (2005)
Reddy V, Narendran TT .Heuristics for scheduling sequence-dependent set-up jobs in flow line cells. Int J Prod Res 41(1):193–206 (2003).
Logendran R .Impact of sequence of operations and layout of cells in cellular manufacturing. Int J Prod Res 29(2):375–390 (1991).
Wu X, Chu CH, Wang Y, Yan W .A genetic algorithm for cellular manufacturing design and layout. Eur J Oper Res 181:156–167 (2007).
Arkat J, Hoseinabadi M, Ahmadizar F .Multi-objective genetic algorithm for cell formation problem considering cellular layout and operation scheduling. Comput Int Man (25):625-635 (2012).
Heragu, S. S., & Kusiak, A .Machine layout problem in flexible manufacturing systems. Operations Research, 36, 258–268 (1988).
S. Karthikeyan, M. Saravanan, K. Ganesh. GT Machine Cell Formation Problem in Scheduling for Cellular Manufacturing System Using Meta-Heuristic Method. Procedia Engineering, Volume 38, Pages 2537-2547 (2012).
Chin-Chih Chang, Tai-Hsi Wu, Chien-Wei Wu. An efficient approach to determine cell formation, cell layout and intracellular machine sequence in cellular manufacturing systems. Computers & Industrial Engineering, Volume 66, Issue 2, Pages 438-450 (2013).
Iraj Mahdavi, Ehsan Teymourian, Nima Tahami Baher, Vahid Kayvanfar. An integrated model for solving cell formation and cell layout problem simultaneously considering new situations. Journal of Manufacturing Systems, Volume 32, Issue 4, Pages 655-663 (2013).
Masoud Bagheri, Mahdi Bashiri. A new mathematical model towards the integration of cell formation with operator assignment and inter-cell layout problems in a dynamic environment. Applied Mathematical Modelling, Volume 38, Issue 4, Pages 1237-1254 (2014).
Mohammad Mohammadi, Kamran Forghani. A novel approach for considering layout problem in cellular manufacturing systems with alternative processing routings and subcontracting approach. Applied Mathematical Modelling, Volume 38, Issue 14, Pages 3624-3640 (2014).
R. Kia, F. Khaksar-Haghani, N. Javadian, R. Tavakkoli-Moghaddam. Solving a multi-floor layout design model of a dynamic cellular manufacturing system by an efficient genetic algorithm. Journal of Manufacturing Systems, Volume 33, Issue 1, Pages 218-232 (2014).
سید ابراهیم سجاد پور. مساله زمانبندی سلول تولیدی خط جریان غیر مرتب با زمان راه اندازی وابسته به توالی خانواده. پایان نامه. زمستان 1388.
Cellular manufacturing has been used to gain efficiency as well as flexibility in production environment. Designing a cellular manufacturing system involves three major decisions : cell formation, cell layout, cellular scheduling. These decisions are interrelated and may impact each other. In this research, we consider the three subjects concurrently .In our study for cell layout design, cells are considered as independent units to locate in two kinds of layouts such as : linear single-row layout and linear double-row layout. To solve this integrated model in real size problems a genetic algorithm is developed. An example is solved by Lingo to validate the model and then the example and its result is illustrated. The results from our study indicate that linear double-row layout found better solutions than linear single-row layout in terms of reducing makespan.
Key words: cellular manufacturing, cell formation, cell layout, group scheduling, genetic algorithm.
1 Group Technology (GT)
2 Cellular Manufacturing (CM)
3 Part Family (PF)
4 Machine cell
5 Flexible Manufacturing System (FMS)
6 Just-in-time (JIT)
7 Cell Formation (CF)
8 Cell Layout (CL)
9 Intercell Layout
10 Interacell Layout
11 Cell Scheduling (CS)
12 Wu et al.
13 Arkat et al
14 Material-handling Facilities
15 Intercell movement
16 Taylor
17 Opitz
18 Burbidg
19 David Ben
20 Frazier, Spriggs
21 Jensen, Malhotra
22 ‌Visual Inspection Method
23 Production Flow Analysis Method=PFA
24 Work In Process
25 MRO
26 Job shop
27 Flow line
28 Lot size
29 Wemmerlov
30 Johnson
31 Fry et al.
32 Generic fixtures
33 Small lots
34 Askin and Standridge
35 Throughput times
36 Collet and Spicer
37 Howard and Newman
38 Lavasseur et al.
39 Hyer
40 Black
41 Makespan
42 Blocking
43 Clustering analysis
44 Graph Partitioning
45 Branch and bound algorithms
46 Metaheuristic algorithms
47 Intracell layout
48 Intercell layout
49 Rajagopalan et al
50 Computerized Layout Solutions using Simulated Annealing.
51 Jajodia et al
52 Salum
53 Urban et al
54 Arvindh and Irani
55 Machine duplication
56 Akturk
57 Chiang and Lee
58 Mahdavi et al
59 Ahi et al
60 Wu et al
61 Sridhar and Rajendran
62 Atmani et al

مطلب مرتبط :   دانلود پایان نامه ارشد درمورداستان مازندران، آموزش و پرورش، ارائه خدمات

Written by 

دیدگاهتان را بنویسید