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International Journal of Production Research Volume 42, 2004 - Issue 4
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Original Articles

A machine-to-loop assignment and layout design methodology for tandem AGV systems with multiple-load vehicles

Ying-Chin Ho * Institute of Industrial Management, National Central University, Chung-Li, 32054, Taiwan
&
Ping-Fong Hsieh Institute of Industrial Management, National Central University, Chung-Li, 32054, Taiwan
Pages 801-832 | Published online: 21 Feb 2007

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Madjid Tavana, Hamed Fazlollahtabar & Reza Hassanzadeh. (2014) A bi-objective stochastic programming model for optimising automated material handling systems with reliability considerations. International Journal of Production Research 52:19, pages 5597-5610.
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Ying-Chin Ho & Teng-Sheng Su. (2012) The machine layout within a TFT-LCD bay with a multiple-stacker crane in-line stocker. International Journal of Production Research 50:18, pages 5152-5172.
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Shabnam Rezapour, Reza Zanjirani-Farahani & Elnaz Miandoabchi. (2011) A machine-to-loop assignment and layout design methodology for tandem AGV systems with single-load vehicles. International Journal of Production Research 49:12, pages 3605-3633.
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Xianping Guan, Xianzhong Dai & Jun Li. (2011) Revised electromagnetism-like mechanism for flow path design of unidirectional AGV systems. International Journal of Production Research 49:2, pages 401-429.
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Oguzhan Alagoz, BryanA. Norman & AliceE. Smith. (2008) Determining aisle structures for facility designs using a hierarchy of algorithms. IIE Transactions 40:11, pages 1019-1031.
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Y.-C. Ho & S.-H. Chien. (2006) A simulation study on the performance of task-determination rules and delivery-dispatching rules for multiple-load AGVs. International Journal of Production Research 44:20, pages 4193-4222.
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Jim Lee & Teerachat Srisawat. (2006) Effect of manufacturing system constructs on pick-up and drop-off strategies of multiple-load AGVs. International Journal of Production Research 44:4, pages 653-673.
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Articles from other publishers (24)

Ji Chol & Cha Ryong Gun. (2023) Multi-agent based scheduling method for tandem automated guided vehicle systems. Engineering Applications of Artificial Intelligence 123, pages 106229.
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Mohd Shakeb Ashraf, Kishan Pal Singh, Wasif Ullah Khan & Mohammed Ali. (2023) AGV’s effect on the performance of flexible manufacturing system in stochastic environment. Materials Today: Proceedings.
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Behnam Rahimikelarijani, Hamed Fazlollahtabar & Sina Nayeri. (2020) Multi-objective multi-load tandem autonomous guided vehicle for robust workload balance and material handling optimization. SN Applied Sciences 2:7.
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Parinaz Pourrahimian. (2017) A new memetic algorithm for mitigating tandem automated guided vehicle system partitioning problem. Journal of Industrial Engineering International 14:4, pages 845-855.
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Chenhao Zhou, Haobin Li, Loo Hay Lee & Ek Peng Chew. (2018) Single Direction Traffic Rule for GRID System - An Innovative Automated Material Handling System. Single Direction Traffic Rule for GRID System - An Innovative Automated Material Handling System.
Zengliang Han & Dongqing Wang. (2017) Research of multi-AGV scheduling system based on a new mixed regional control model. Research of multi-AGV scheduling system based on a new mixed regional control model.
Xiumin Fan, Qichang He & Yuanchun Zhang. (2015) Zone Design of Tandem Loop AGVs Path with Hybrid Algorithm. IFAC-PapersOnLine 48:3, pages 869-874.
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Hamed Fazlollahtabar & Mohammad Saidi-MehrabadHamed Fazlollahtabar & Mohammad Saidi-Mehrabad. 2015. Autonomous Guided Vehicles. Autonomous Guided Vehicles 41 56 .
Amir Salehipour & Mohammad Mehdi Sepehri. (2014) Optimal location of workstations in tandem automated-guided vehicle systems. The International Journal of Advanced Manufacturing Technology 72:9-12, pages 1429-1438.
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Reza Zanjirani Farahani, Hannaneh Rashidi-Bajgan & Taravatsadat Nehzati. 2013. Graph Theory for Operations Research and Management. Graph Theory for Operations Research and Management 197 211 .
S. Prombanpong, W. Kiattiphatthananukul, A. Songsanan & A. Sukin. (2012) The design of an AGV in the manufacturing cell. The design of an AGV in the manufacturing cell.
Ying-Chin Ho, Hao-Cheng Liu & Yuehwern Yih. (2012) A multiple-attribute method for concurrently solving the pickup-dispatching problem and the load-selection problem of multiple-load AGVs. Journal of Manufacturing Systems 31:3, pages 288-300.
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Amir Salehipour, Hamed Kazemipoor & Leila Moslemi Naeini. (2010) Locating workstations in tandem automated guided vehicle systems. The International Journal of Advanced Manufacturing Technology 52:1-4, pages 321-328.
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Ci Chen, Binghai Zhou & Lifeng Xi. (2010) A support vector machine based scheduling approach for a material handling system. A support vector machine based scheduling approach for a material handling system.
Babak Shirazi, Hamed Fazlollahtabar & Iraj Mahdavi. (2010) A six sigma based multi-objective optimization for machine grouping control in flexible cellular manufacturing systems with guide-path flexibility. Advances in Engineering Software 41:6, pages 865-873.
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Ying-Chin Ho & Ta-Wei Liao. (2009) Zone design and control for vehicle collision prevention and load balancing in a zone control AGV system. Computers & Industrial Engineering 56:1, pages 417-432.
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Ying-Chin Ho & Hao-Cheng Liu. (2009) The performance of load-selection rules and pickup-dispatching rules for multiple-load AGVs. Journal of Manufacturing Systems 28:1, pages 1-10.
Crossref
R. Tavakkoli-Moghaddam, M. B. Aryanezhad, H. Kazemipoor & A. Salehipour. (2007) Partitioning machines in tandem AGV systems based on “balanced flow strategy” by simulated annealing. The International Journal of Advanced Manufacturing Technology 38:3-4, pages 355-366.
Crossref
Reza Zanjirani Farahani, Gilbert Laporte, Elnaz Miandoabchi & Saman Bina. (2007) Designing efficient methods for the tandem AGV network design problem using tabu search and genetic algorithm. The International Journal of Advanced Manufacturing Technology 36:9-10, pages 996-1009.
Crossref
Robert Stahlbock & Stefan Voβ. 2008. The Vehicle Routing Problem: Latest Advances and New Challenges. The Vehicle Routing Problem: Latest Advances and New Challenges 551 589 .
Robert Stahlbock & Stefan Voß. (2007) Operations research at container terminals: a literature update. OR Spectrum 30:1, pages 1-52.
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Yoonho Seo, Chulung Lee & Chiung Moon. (2006) Tabu search algorithm for flexible flow path design of unidirectional automated-guided vehicle systems. OR Spectrum 29:3, pages 471-487.
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Sandor Ujvari & Olli‐Pekka Hilmola. (2006) Advanced manufacturing simulation. Industrial Management & Data Systems 106:8, pages 1166-1186.
Crossref
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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