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International Journal of Production Research Volume 32, 1994 - Issue 12
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Original Articles

An algorithm for routeing control of a tandem automated guided vehicle system

J. T. LIN Department of Industrial Engineering, National Tsing Hua University, Hsinchu, Taiwan, 30043, Republic of ChinaView further author information
&
P.-K. DGEN Department of Industrial Engineering, National Tsing Hua University, Hsinchu, Taiwan, 30043, Republic of China
Pages 2735-2750 | Received 01 Dec 1993, Published online: 07 May 2007

Citations (19)

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Read on this site (6)

Hamed Fazlollahtabar. (2018) Lagrangian relaxation method for optimizing delay of multiple autonomous guided vehicles. Transportation Letters 10:6, pages 354-360.
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B. R. Sarker & S. S. Gurav. (2005) Route planning for automated guided vehicles in a manufacturing facility. International Journal of Production Research 43:21, pages 4659-4683.
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Ling Qiu, Wen-Jing Hsu, Shell-Ying Huang & Han Wang. (2002) Scheduling and routing algorithms for AGVs: A survey. International Journal of Production Research 40:3, pages 745-760.
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Jaejin Jang, Jungdae Suh & PlacidM. Ferreira. (2001) An AGV routing policy reflecting the current and future state of semiconductor and LCD production lines. International Journal of Production Research 39:17, pages 3901-3921.
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D.Y. Sha & Ling-Feng Hsieh. (2000) A design of the load routing problem in a tandem AGV system. Journal of the Chinese Institute of Industrial Engineers 17:1, pages 103-110.
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K. K. Tan, T. H. Lee & K. Z. Tang. (1999) Flexible Dispatching Rules for Automated Guided Vehicles Based on a Self-Adapting Fuzzy Prioritizing System. Intelligent Automation & Soft Computing 5:4, pages 327-336.
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Articles from other publishers (13)

Hassan Rashidi & Edward Tsang. 2015. Vehicle Scheduling in Port Automation. Vehicle Scheduling in Port Automation 160 173 .
Giulio Binetti, David Naso & Biagio Turchiano. (2013) A decentralized allocation algorithm for distributed supply chains with critical tasks. IFAC Proceedings Volumes 46:9, pages 192-197.
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A. Awasthi, S.S. Chauhan & J.M. Proth. (2009) A zones formation algorithm for tandem AGV systems. IFAC Proceedings Volumes 42:4, pages 606-611.
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V. Giordano, Jing Bing Zhang, D. Naso & F. Lewis. (2008) Integrated Supervisory and Operational Control of a Warehouse With a Matrix-Based Approach. IEEE Transactions on Automation Science and Engineering 5:1, pages 53-70.
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Tilak Raj, Ravi Shankar & Mohammed Suhaib. (2007) A review of some issues and identification of some barriers in the implementation of FMS. International Journal of Flexible Manufacturing Systems 19:1, pages 1-40.
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Vincenzo Giordano, Zhang Bing, David Naso, Frank Lewis, Alessandra Carbotti & Ng Jye. (2006) A matrix-based framework for combined supervisory and operational control of an industrial warehouse. A matrix-based framework for combined supervisory and operational control of an industrial warehouse.
D. Naso & B. Turchiano. (2005) Multicriteria Meta-Heuristics for AGV Dispatching Control Based on Computational Intelligence. IEEE Transactions on Systems, Man and Cybernetics, Part B (Cybernetics) 35:2, pages 208-226.
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Yavuz A. Bozer & Chi-Guhn Lee. (2004) Using existing workstations as transfer stations in tandem AGV systems. Journal of Manufacturing Systems 23:3, pages 229-241.
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K.K. Tan & K.Z. Tang. (2001) Vehicle dispatching system based on Taguchi-tuned fuzzy rules. European Journal of Operational Research 128:3, pages 545-557.
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Wooyeon Yu & Pius J. Egbelu. (2001) Design of a variable path tandem layout for automated guided vehicle systems. Journal of Manufacturing Systems 20:5, pages 305-319.
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Ignacio Castillo, Sergio A. Reyes & Brett A. Peters. (2001) Modeling and analysis of tandem AGV systems using generalized stochastic Petri nets. Journal of Manufacturing Systems 20:4, pages 236-249.
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K.K. Tan, K.C. Tan & K.Z. Tang. (2000) Evolutionary tuning of a fuzzy dispatching system for automated guided vehicles. IEEE Transactions on Systems, Man and Cybernetics, Part B (Cybernetics) 30:4, pages 632-636.
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Ling‐Feng Hsieh & D.Y. Sha. (1996) A design process for tandem automated guided vehicle systems: the concurrent design of machine layout and guided vehicle routes in tandem automated guided vehicle systems. Integrated Manufacturing Systems 7:6, pages 30-38.
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