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IIE Transactions Volume 27, 1995 - Issue 1
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ORIGINAL ARTICLES

Evaluation of search algorithms and clustering efficiency measures for machine-part matrix clustering

M. SHARGAL Department of Computer Science, University of Minnesota, Minneapolis, MN, 55455, USA
,
S. SHEKHAR Department of Computer Science, University of Minnesota, Minneapolis, MN, 55455, USA
&
S.A. IRANI Department of Mechanical Engineering, University of Minnesota, Minneapolis, MN, 55455, USA
Pages 43-59 | Received 01 Sep 1992, Accepted 01 Feb 1993, Published online: 27 Apr 2007

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Michael J. Brusco. (2015) An exact algorithm for maximizing grouping efficacy in part–machine clustering. IIE Transactions 47:6, pages 653-671.
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MichaelJ. Brusco & Douglas Steinley. (2007) Exact and approximate algorithms for part-machine clustering based on a relationship between interval graphs and Robinson matrices. IIE Transactions 39:10, pages 925-935.
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D. Dobado, S. Lozano, J. M. Bueno & J. Larrañeta. (2002) Cell formation using a Fuzzy Min-Max neural network. International Journal of Production Research 40:1, pages 93-107.
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BHABAR. SARKER & MUSLEMA KHAN. (2001) A comparison of existing grouping efficiency measures and a new weighted grouping efficiency measure. IIE Transactions 33:1, pages 11-27.
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B.R. SARKER & C.V. BALAN. (1996) Cell formation with operation times of jobs for even distribution of workloads. International Journal of Production Research 34:5, pages 1447-1468.
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Berna H. Ulutas. (2018) An immune system based algorithm for cell formation problem. Journal of Intelligent Manufacturing 30:8, pages 2835-2852.
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Ricardo Soto, Broderick Crawford, Angelo Aste Toledo, Hanns de la Fuente-Mella, Carlos Castro, Fernando Paredes & Rodrigo Olivares. (2019) Solving the Manufacturing Cell Design Problem through Binary Cat Swarm Optimization with Dynamic Mixture Ratios. Computational Intelligence and Neuroscience 2019, pages 1-16.
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Ilya Bychkov & Mikhail Batsyn. (2018) An efficient exact model for the cell formation problem with a variable number of production cells. Computers & Operations Research 91, pages 112-120.
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Ricardo Soto, Broderick Crawford, Rodrigo Olivares, Héctor Ortega & Boris Almonacid. 2018. Applied Computational Intelligence and Mathematical Methods. Applied Computational Intelligence and Mathematical Methods 102 113 .
Ricardo Soto, Broderick Crawford, Leandro Vásquez, Roberto Zulantay, Ana Jaime, Maykol Ramírez & Boris Almonacid. 2017. Multi-disciplinary Trends in Artificial Intelligence. Multi-disciplinary Trends in Artificial Intelligence 473 484 .
Ricardo Soto, Broderick Crawford, Rodrigo Olivares, Michele De Conti, Ronald Rubio, Boris Almonacid & Stefanie Niklander. 2016. Multi-disciplinary Trends in Artificial Intelligence. Multi-disciplinary Trends in Artificial Intelligence 184 195 .
Ricardo Soto, Broderick Crawford, Emanuel Vega, Franklin Johnson & Fernando Paredes. 2016. The 1st International Conference on Advanced Intelligent System and Informatics (AISI2015), November 28-30, 2015, Beni Suef, Egypt. The 1st International Conference on Advanced Intelligent System and Informatics (AISI2015), November 28-30, 2015, Beni Suef, Egypt 253 261 .
Ricardo Soto, Broderick Crawford, Emanuel Vega & Fernando Paredes. 2015. Advances in Artificial Intelligence and Soft Computing. Advances in Artificial Intelligence and Soft Computing 282 290 .
Bo Xing & Wen-Jing Gao. 2014. Computational Intelligence in Remanufacturing. Computational Intelligence in Remanufacturing 135 150 .
Ignacio Eguia, Jesus Racero, Fernando Guerrero & Sebastian Lozano. (2013) Cell formation and scheduling of part families for reconfigurable cellular manufacturing systems using Tabu search. SIMULATION 89:9, pages 1056-1072.
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Anil Kumar Agrawal, Prabhas Bhardwaj & Vivek Srivastava. (2011) On some measures for grouping efficiency. The International Journal of Advanced Manufacturing Technology 56:5-8, pages 789-798.
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Ricardo Galán. 2008. Metaheuristics for Scheduling in Industrial and Manufacturing Applications. Metaheuristics for Scheduling in Industrial and Manufacturing Applications 211 253 .
Jamal Arkat, Mohammad Saidi & Babak Abbasi. (2006) Applying simulated annealing to cellular manufacturing system design. The International Journal of Advanced Manufacturing Technology 32:5-6, pages 531-536.
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Ana R. Xambre & Pedro M. Vilarinho. (2003) A simulated annealing approach for manufacturing cell formation with multiple identical machines. European Journal of Operational Research 151:2, pages 434-446.
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YU-AN LI & SABAH RANDHAWA. (2002) COMPONENT TO MULTI-TRACK FEEDER ASSIGNMENT AND BOARD SEQUENCING IN PRINTED CIRCUIT BOARD ASSEMBLY. Journal of Electronics Manufacturing 11:01, pages 51-68.
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S. Lozano, D. Dobado, J. Larrañeta & L. Onieva. (2002) Modified fuzzy C-means algorithm for cellular manufacturing. Fuzzy Sets and Systems 126:1, pages 23-32.
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Yohanan Arzi, Joseph Bukchin & Michael Masin. (2001) An efficiency frontier approach for the design of cellular manufacturing systems in a lumpy demand environment. European Journal of Operational Research 134:2, pages 346-364.
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Bhaba R. Sarker. (2001) Measures of grouping efficiency in cellular manufacturing systems. European Journal of Operational Research 130:3, pages 588-611.
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Avraham Sless, Yohanan Arzi & Daniel Sipper. (1999) Object based information modeling of CIM systems. International Journal of Agile Management Systems 1:3, pages 138-150.
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Ashok Kumar & Jaideep Motwani. (1998) Case study: reconfiguring a manufacturing system for strategic advantage ‐ a real‐world application. Logistics Information Management 11:4, pages 244-256.
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J. A. Joines, R. E. King & C. T. Culbreth. 1998. Group Technology and Cellular Manufacturing. Group Technology and Cellular Manufacturing 185 204 .

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