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International Journal of Production Research Volume 29, 1991 - Issue 5
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Original Articles

Conflict detection of automated guided vehicles: a Petri net approach

LAIGUANG ZENG Department of Electrical Engineering, Rochester Institute of Technology, Rochester, NY, 14623, USA
,
HSU-PIN (BEN) WANG Department of Industrial Engineering, The University of Iowa, Iowa City, IO, 52242, USA
&
SONG JIN Department of Electrical Engineering, Rochester Institute of Technology, Rochester, NY, 14623, USA
Pages 866-879 | Received 01 Apr 1990, Published online: 27 Apr 2007

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W.L. Yeung. (2011) Formal verification of negotiation protocols for multi-agent manufacturing systems. International Journal of Production Research 49:12, pages 3669-3690.
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M. Dotoli & M. P. Fanti. (2004) Coloured timed Petri net model for real-time control of automated guided vehicle systems. International Journal of Production Research 42:9, pages 1787-1814.
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Sewon Oh & Hyunbo Cho. (2002) Functional architecture and enabling technologies for distributed shop floor control. International Journal of Computer Integrated Manufacturing 15:6, pages 526-540.
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Maria Pia Fanti. (2002) Event-based controller to avoid deadlock and collisions in zone-control AGVS. International Journal of Production Research 40:6, pages 1453-1478.
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Naiqi Wu & Wenqu Zeng. (2002) Deadlock avoidance in an automated guidance vehicle system using a coloured Petri net model. International Journal of Production Research 40:1, pages 223-238.
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SPYROSA. REVELIOTIS. (2000) Conflict resolution in AGV systems. IIE Transactions 32:7, pages 647-659.
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C. J. MALMBORG. (1996) An integrated materials handling model for machine location in existing facilities. International Journal of Production Research 34:4, pages 1145-1159.
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C.-C. LEE & J. T. LIN. (1995) Deadlock prediction and avoidance based on Petri nets for zone-control automated guided vehicle systems. International Journal of Production Research 33:12, pages 3249-3265.
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HUNGLINM. WANG & H.-P. BEN WANG. (1995) Generation of optimal operating strategies for robotic cells: a Petri net approach. International Journal of Computer Integrated Manufacturing 8:1, pages 32-42.
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C. J. MALMBORG. (1994) Heuristic, storage space minimization methods for facility layouts served by looped AGV systems. International Journal of Production Research 32:11, pages 2695-2710.
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H.-P. B. WANG & S. A. HAFEEZ. (1994) Performance evaluation of tandem and conventional AGV systems using generalized stochastic Petri nets. International Journal of Production Research 32:4, pages 917-932.
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C. J. MALMBORG. (1994) A heuristic model for simultaneous storage space allocation and block layout planning. International Journal of Production Research 32:3, pages 517-530.
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J. T. LIN, C. C. K. CHANG & WEN-CHUNG LIU. (1994) A load-routeing problem in a tandem-configuration automated guided-vehicle system. International Journal of Production Research 32:2, pages 411-427.
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JAMEST. LIN & CHIA-CHU LEE. (1992) A modular approach for the modelling of a class of zone-control conveyor system using timed Petri nets. International Journal of Computer Integrated Manufacturing 5:4-5, pages 277-289.
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Articles from other publishers (31)

Salazar Javier Eduardo & Shih-Hsien Tseng. (2023) Design of experiment and simulation approach for analyzing automated guided vehicle performance indicators in a production line. SIMULATION 100:3, pages 265-281.
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Jiapeng You, Zhiyang Chen, Hongwei Jiang & Poly Z. H. Sun. (2024) Dynamic AGV Conflict Detection Under Speed Uncertainty Considerations. IEEE Transactions on Intelligent Vehicles 9:1, pages 2649-2661.
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Jean-Lou De Carufel, Darryl Hill, Anil Maheshwari, Sasanka Roy & Luís Fernando Schultz Xavier da Silveira. (2023) Constant delay lattice train schedules. Discrete Applied Mathematics 339, pages 1-10.
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Márton Drótos, Péter Györgyi, Markó Horváth & Tamás Kis. (2021) Suboptimal and conflict-free control of a fleet of AGVs to serve online requests. Computers & Industrial Engineering 152, pages 106999.
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Mingyao Qi, Xiaowen Li, Xuejun Yan & Canrong Zhang. (2018) On the evaluation of AGVS-based warehouse operation performance. Simulation Modelling Practice and Theory 87, pages 379-394.
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Qin Li, Alexander Pogromsky, Teun Adriaansen & Jan Tijmen Udding. (2016) A Control of Collision and Deadlock Avoidance for Automated Guided Vehicles with a Fault-Tolerance Capability. International Journal of Advanced Robotic Systems 13:2, pages 64.
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Hamed Fazlollahtabar & Mohammad Saidi-Mehrabad. (2013) RETRACTED ARTICLE: Methodologies to Optimize Automated Guided Vehicle Scheduling and Routing Problems: A Review Study. Journal of Intelligent & Robotic Systems 77:3-4, pages 525-545.
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Hamed Fazlollahtabar & Mohammad Saidi-MehrabadHamed Fazlollahtabar & Mohammad Saidi-Mehrabad. 2015. Autonomous Guided Vehicles. Autonomous Guided Vehicles 1 15 .
Debjit Roy, Ananth Krishnamurthy, Sunderesh S. Heragu & Charles J. Malmborg. (2014) Blocking Effects in Warehouse Systems With Autonomous Vehicles. IEEE Transactions on Automation Science and Engineering 11:2, pages 439-451.
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D Herrero-Perez & H Martinez-Barbera. (2010) Modeling Distributed Transportation Systems Composed of Flexible Automated Guided Vehicles in Flexible Manufacturing Systems. IEEE Transactions on Industrial Informatics 6:2, pages 166-180.
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Jennifer Blackhurst, Tong (Teresa) Wu & Christopher W. Craighead. (2008) A systematic approach for supply chain conflict detection with a hierarchical Petri Net extension. Omega 36:5, pages 680-696.
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NaiQi Wu & MengChu Zhou. (2007) Shortest Routing of Bidirectional Automated Guided Vehicles Avoiding Deadlock and Blocking. IEEE/ASME Transactions on Mechatronics 12:1, pages 63-72.
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Tuan Le-Anh & M.B.M. De Koster. (2006) A review of design and control of automated guided vehicle systems. European Journal of Operational Research 171:1, pages 1-23.
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Iris F.A. Vis. (2006) Survey of research in the design and control of automated guided vehicle systems. European Journal of Operational Research 170:3, pages 677-709.
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Naiqi Wu & MengChu Zhou. (2005) Modeling and deadlock avoidance of automated manufacturing systems with multiple automated guided vehicles. IEEE Transactions on Systems, Man, and Cybernetics, Part B (Cybernetics) 35:6, pages 1193-1202.
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Chang Ho Yang, Yong Seok Choi & Tae Young Ha. 2005. Container Terminals and Automated Transport Systems. Container Terminals and Automated Transport Systems 79 100 .
Elzbieta Roszkowska. (2003) Supervisory control for closed agv systems with dynamic vehicle routing. IFAC Proceedings Volumes 36:17, pages 413-418.
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Naiqi Wu & MengChu Zhou. (2003) AGV routing for conflict resolution in AGV systems. AGV routing for conflict resolution in AGV systems.
E. Roszkowska. (2002) Undirected colored Petri net for modelling and supervisory control of AGV systems. Undirected colored Petri net for modelling and supervisory control of AGV systems.
Maria Pia Fanti. 2002. Concurrency in Dependable Computing. Concurrency in Dependable Computing 105 126 .
Naiai Wu & Mengchu Zhou. (2001) Resource-oriented Petri nets in deadlock avoidance of AGV systems. Resource-oriented Petri nets in deadlock avoidance of AGV systems.
M.P. Fanti & B. Turchiano. (2001) Deadlock avoidance in automated guided vehicle systems. Deadlock avoidance in automated guided vehicle systems.
Myoung-Sam Ko & Jongwon Kim. (1997) Design and implementation of an automatic material handling system using Petri nets. Design and implementation of an automatic material handling system using Petri nets.
Joseph J.M. Evers & Stijn A.J. Koppers. (1996) Automated guided vehicle traffic control at a container terminal. Transportation Research Part A: Policy and Practice 30:1, pages 21-34.
Crossref
Joongwon Woo, Jongwon Kim & Ha-Young Park. (1995) Design and implementation of an automatic material handling system in a batch production environment. KSME Journal 9:4, pages 452-461.
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Shu-Chu Liu. (1995) Dynamic dispatching rule modeling for AGV moves in a flexible manufacturing system: A Petri net approach. Dynamic dispatching rule modeling for AGV moves in a flexible manufacturing system: A Petri net approach.
Doo Yong Lee & F. DiCesare. (1994) Integrated scheduling of flexible manufacturing systems employing automated guided vehicles. IEEE Transactions on Industrial Electronics 41:6, pages 602-610.
Crossref
D. Kumar & S. Harous. (1994) Distributed simulation of timed Petri nets: basic problems and their resolution. IEEE Transactions on Systems, Man, and Cybernetics 24:10, pages 1498-1510.
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C. J. Malmborg. 1994. Material Flow Systems in Manufacturing. Material Flow Systems in Manufacturing 138 156 .
D.Y. Lee & F. DiCesare. (1993) Integrated models for scheduling flexible manufacturing systems. Integrated models for scheduling flexible manufacturing systems.
C.J. Malmborg & L.M. Berrings. (1992) A decision support system for the design of batch manufacturing system. A decision support system for the design of batch manufacturing system.

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