Ying-Chin Ho, Jia-Chyun Chen & Teng-Sheng Su. (2024) A study on the control problem of stacker cranes in the in-line stocker of a TFT-LCD bay. The International Journal of Advanced Manufacturing Technology.
Crossref
Malay A. Dalal & Timothy J. Greene. (2023) SIMULATION STUDY OF AGV AND JOB DISPATCHING RULES IN A FMS. SIMULATION STUDY OF AGV AND JOB DISPATCHING RULES IN A FMS.
Chengfeng Peng, Zhantao Li, Hongyang Zhong, Xiang Li, Anping Lin & Yong Liao. (2023) Research on Multi-Objective Scheduling Algorithm of Job Shop Considering Limited Storage and Transportation Capacity. IEEE Access 11, pages 94252-94280.
Crossref
B. Samuvel Michael, M. Saravanakumar, Sam Jebaz M. Ajith K.Marjin Reang. Design and fabrication of FMS based line follower guided vehicle. Design and fabrication of FMS based line follower guided vehicle.
Yumin He & Milton Smith. 2021. Advances in Production Management Systems. Artificial Intelligence for Sustainable and Resilient Production Systems. Advances in Production Management Systems. Artificial Intelligence for Sustainable and Resilient Production Systems
507
515
.
Adil Baykasoğlu, Fatma S. Madenoğlu & Alper Hamzadayı. (2020) Greedy randomized adaptive search for dynamic flexible job-shop scheduling. Journal of Manufacturing Systems 56, pages 425-451.
Crossref
Dunbing Tang, Kun Zheng & Wenbin GuDunbing Tang, Kun Zheng & Wenbin Gu. 2020. Adaptive Control of Bio-Inspired Manufacturing Systems. Adaptive Control of Bio-Inspired Manufacturing Systems
47
72
.
Yubang Liu, Shouwen Ji, Zengrong Su & Dong Guo. (2019) Multi-objective AGV scheduling in an automatic sorting system of an unmanned (intelligent) warehouse by using two adaptive genetic algorithms and a multi-adaptive genetic algorithm. PLOS ONE 14:12, pages e0226161.
Crossref
Xiaojian Zhang & Zhiyuan Wang. (2019) Dynamic Scheduling Model of Intelligent Rail-Guided Vehicles Based on Dynamic Programming. Dynamic Scheduling Model of Intelligent Rail-Guided Vehicles Based on Dynamic Programming.
Viveak Kumar Chawla, Arindam Kumar Chanda & Surjit Angra. (2018) A Clonal Selection Algorithm for Minimizing Distance Travel and Back Tracking of Automatic Guided Vehicles in Flexible Manufacturing System. Journal of The Institution of Engineers (India): Series C 100:3, pages 401-410.
Crossref
Wenuin Gu, Yuxin Li, Zuo Li & Yuhui Qian. (2019) An intelligent approach for dynamic AGV scheduling problem in the discrete manufacturing system. An intelligent approach for dynamic AGV scheduling problem in the discrete manufacturing system.
Kun Zheng, Dunbing Tang, Adriana Giret, Miguel A Salido & Zelei Sang. (2016) A hormone regulation–based approach for distributed and on-line scheduling of machines and automated guided vehicles. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 232:1, pages 99-113.
Crossref
Amirabbas Tabatabaei, Farshid Torabi & Tontiwachwuthikul Paitoon. (2018) Simultaneous scheduling of machines and automated guided vehicles utilizing heuristic search algorithm. Simultaneous scheduling of machines and automated guided vehicles utilizing heuristic search algorithm.
Cenk Sahin, Melek Demirtas, Rizvan Erol, Adil Baykasoğlu & Vahit Kaplanoğlu. (2015) A multi-agent based approach to dynamic scheduling with flexible processing capabilities. Journal of Intelligent Manufacturing 28:8, pages 1827-1845.
Crossref
Medikondu Nageswararao, K. Narayanarao & G. Rangajanardhana. (2017) Scheduling of Machines and Automated Guided Vehicles in FMS Using Gravitational Search Algorithm. Applied Mechanics and Materials 867, pages 307-313.
Crossref
Maryam Mousavi, Hwa Jen Yap, Siti Nurmaya Musa, Farzad Tahriri & Siti Zawiah Md Dawal. (2017) Multi-objective AGV scheduling in an FMS using a hybrid of genetic algorithm and particle swarm optimization. PLOS ONE 12:3, pages e0169817.
Crossref
Adamu I. Abubakar, Elbara Eldaw Elnour Mohamed & Akram M. Zeki. (2017) The Dynamics of Data Packet in Transmission Session. IEEE Access 5, pages 4329-4339.
Crossref
Chen Xie & Theodore T. Allen. (2015) Simulation and experimental design methods for job shop scheduling with material handling: a survey. The International Journal of Advanced Manufacturing Technology 80:1-4, pages 233-243.
Crossref
Hyun-Jung Kim, Jun-Ho Lee, Sunhee Baik & Tae-Eog Lee. (2015) Scheduling In-Line Multiple Cluster Tools. IEEE Transactions on Semiconductor Manufacturing 28:2, pages 171-179.
Crossref
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.
Crossref
P. Udhayakumar & S. Kumanan. (2011) Integrated scheduling of flexible manufacturing system using evolutionary algorithms. The International Journal of Advanced Manufacturing Technology 61:5-8, pages 621-635.
Crossref
Rizvan Erol, Cenk Sahin, Adil Baykasoglu & Vahit Kaplanoglu. (2012) A multi-agent based approach to dynamic scheduling of machines and automated guided vehicles in manufacturing systems. Applied Soft Computing 12:6, pages 1720-1732.
Crossref
M. V. Satish Kumar, Ranga Janardhana & C. S. P. Rao. (2010) Simultaneous scheduling of machines and vehicles in an FMS environment with alternative routing. The International Journal of Advanced Manufacturing Technology 53:1-4, pages 339-351.
Crossref
Ravindra Kumar, Abid Haleem, Suresh K. Garg & Rajesh K. Singh. (2017) Performance Optimization of an Imbalanced Flexible Manufacturing System Using Taguchi Approach. Global Journal of Flexible Systems Management 12:1-2, pages 81-89.
Crossref
Tamer F. Abdelmaguid & Ashraf O. Nassef. (2009) A constructive heuristic for the integrated scheduling of machines and multiple-load material handling equipment in job shops. The International Journal of Advanced Manufacturing Technology 46:9-12, pages 1239-1251.
Crossref
A. Caumond, P. Lacomme, A. Moukrim & N. Tchernev. (2009) An MILP for scheduling problems in an FMS with one vehicle. European Journal of Operational Research 199:3, pages 706-722.
Crossref
Tauseef Aized. (2009) Modelling and performance maximization of an integrated automated guided vehicle system using coloured Petri net and response surface methods. Computers & Industrial Engineering 57:3, pages 822-831.
Crossref
M. T. Taghavi, M. Heydar & S. S. Mousavi. (2008) A Genetic Algorithm for Scheduling Flexible Manufacturing Cells. Journal of Applied Sciences 9:1, pages 97-104.
Crossref
V Kumar, S Kumar, M K Tiwari & F Chan. (2008) Performance evaluation of flexible manufacturing systems under uncertain and dynamic situations. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 222:7, pages 915-934.
Crossref
Ahmed El-Bouri, Subramaniam Balakrishnan & Neil Popplewell. (2008) Cooperative dispatching for minimizing mean flowtime in a dynamic flowshop. International Journal of Production Economics 113:2, pages 819-833.
Crossref
Tian Feng & Yang Zhen. (2007) A New Algorithm for Weighted Proportional Fairness Based Spectrum Allocation of Cognitive Radios. A New Algorithm for Weighted Proportional Fairness Based Spectrum Allocation of Cognitive Radios.
Ozgur Eski & Irem Ozkarahan. 2007. Advanced Intelligent Computing Theories and Applications. With Aspects of Artificial Intelligence. Advanced Intelligent Computing Theories and Applications. With Aspects of Artificial Intelligence
670
681
.
Ghada El Khayat, André Langevin & Diane Riopel. (2006) Integrated production and material handling scheduling using mathematical programming and constraint programming. European Journal of Operational Research 175:3, pages 1818-1832.
Crossref
Ying-Chin Ho & Hao-Cheng Liu. (2006) A simulation study on the performance of pickup-dispatching rules for multiple-load AGVs. Computers & Industrial Engineering 51:3, pages 445-463.
Crossref
J. Jerald, P. Asokan, R. Saravanan & A. Delphin Carolina Rani. (2006) Simultaneous scheduling of parts and automated guided vehicles in an FMS environment using adaptive genetic algorithm. The International Journal of Advanced Manufacturing Technology 29:5-6, pages 584-589.
Crossref
J. Jerald, P. Asokan, R. Saravanan & A. Delphin Carolina Rani. (2005) Simultaneous scheduling of parts and automated guided vehicles in an FMS environment using adaptive genetic algorithm. The International Journal of Advanced Manufacturing Technology 29:5, pages 584-589.
Crossref
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.
Crossref
Ümit Bilge, Gökçe Esenduran, Nebibe Varol, Zeynep Öztürk, Burcu Aydın & Aysun Alp. (2006) Multi-attribute responsive dispatching strategies for automated guided vehicles. International Journal of Production Economics 100:1, pages 65-75.
Crossref
Ran Shneor, Sigal Berman & Yael Edan. 2006. Applied Soft Computing Technologies: The Challenge of Complexity. Applied Soft Computing Technologies: The Challenge of Complexity
749
760
.
S.S. Sankar & S.G. Ponnambalam. (2005) An intelligent integrated scheduling model for Flexible Manufacturing System. An intelligent integrated scheduling model for Flexible Manufacturing System.
Pyung-Hoi Koo, Jaejin Jang & Jungdae Suh. (2005) Vehicle dispatching for highly loaded semiconductor production considering bottleneck machines first. International Journal of Flexible Manufacturing Systems 17:1, pages 23-38.
Crossref
Jae Kook Lim, Kap Hwan Kim, Kazuho Yoshimoto, Jun Ho Lee & Teruo Takahashi. 2005. Container Terminals and Automated Transport Systems. Container Terminals and Automated Transport Systems
325
344
.
Kap Hwan Kim & Jong Wook Bae. (2004) A Look-Ahead Dispatching Method for Automated Guided Vehicles in Automated Port Container Terminals. Transportation Science 38:2, pages 224-234.
Crossref
S.S. Sankar, R. Rajkumar, S.G. Ponnambalam & M. Gurumarimuthu. (2004) Integrated scheduling of material handling and manufacturing activities in flexible manufacturing system. Integrated scheduling of material handling and manufacturing activities in flexible manufacturing system.
. (2003) AGV System Operating Scheme based on Grid Level Control in Automated Terminal. Journal of Korean navigation and port research 27:2, pages 223-231.
Crossref
J.C. Domingos & P.R. Politano. (2003) On-line scheduling for flexible manufacturing systems based on fuzzy logic. On-line scheduling for flexible manufacturing systems based on fuzzy logic.
F T S Chan. (2016) Evaluation of combined dispatching and routeing strategies for a flexible manufacturing system. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 216:7, pages 1033-1046.
Crossref
Chin-I Liu & P.A. Ioannou. (2002) A comparison of different AGV dispatching rules in an automated container terminal. A comparison of different AGV dispatching rules in an automated container terminal.
Zhao Xiaobo & K. Nakashima. (2000) An optimal part sending policy for a production system in a general configuration with a new control strategy. IEEE Transactions on Systems, Man, and Cybernetics - Part A: Systems and Humans 30:2, pages 159-165.
Crossref
P.R. Politano, H.A. Camargo, E.R.R. Kato & O. Morandin. (2000) A reactive programming procedure for flexible manufacturing system. A reactive programming procedure for flexible manufacturing system.
Sang Hwi Kim & Hark Hwang. (1999) An adaptive dispatching algorithm for automated guided vehicles based on an evolutionary process. International Journal of Production Economics 60-61, pages 465-472.
Crossref
Dong-Ho Lee & Yeong-Dae Kim. (1999) Scheduling algorithms for flexible manufacturing systems with partially grouped machines. Journal of Manufacturing Systems 18:4, pages 301-309.
Crossref
Eileen Bordelon Hoff & Bhaba R. Sarker. (1998) An overview of path design and dispatching methods for automated guided vehicles. Integrated Manufacturing Systems 9:5, pages 296-307.
Crossref
Hark Hwang & Sang Hwi Kim. (1998) Development of dispatching rules for automated guided vehicle systems. Journal of Manufacturing Systems 17:2, pages 137-143.
Crossref
James H. Bookbinder & Michael D. Kirk. (1997) Lane selection in an AGV-based asynchronous parallel assembly line. Computers & Industrial Engineering 32:4, pages 927-938.
Crossref
Gündüz Ulusoy, Funda Sivrikaya-Şerifoǧlu & Ümit Bilge. (1997) A genetic algorithm approach to the simultaneous scheduling of machines and automated guided vehicles. Computers & Operations Research 24:4, pages 335-351.
Crossref
Ümit Bilge & J.M.A. Tanchoco. (1997) AGV systems with multi-load carriers: Basic issues and potential benefits. Journal of Manufacturing Systems 16:3, pages 159-174.
Crossref
Fataneh Taghaboni-Dutta. (1997) A value-added approach for automated guided vehicle task assignment. Journal of Manufacturing Systems 16:1, pages 24-34.
Crossref
Mingyuan Chen. (1996) A mathematical programming model for AGVS planning and control in manufacturing systems. Computers & Industrial Engineering 30:4, pages 647-658.
Crossref
Andr� Langevin, Daniel Lauzon & Diane Riopel. (1996) Dispatching, routing, and scheduling of two automated guided vehicles in a flexible manufacturing system. International Journal of Flexible Manufacturing Systems 8:3, pages 247-262.
Crossref
Gang Hao, Jen S. Shang & Luis G. Vargas. (1996) A neural network model for the free-ranging AGV route-planning problem. Journal of Intelligent Manufacturing 7:3, pages 217-227.
Crossref
Yavuz A. Bozer & Chih-kuan Yen. (1996) Intelligent dispatching rules for trip-based material handling systems. Journal of Manufacturing Systems 15:4, pages 226-239.
Crossref
Harilaos N. Psaraftis. (1995) Dynamic vehicle routing: Status and prospects. Annals of Operations Research 61:1, pages 143-164.
Crossref
Ronald J. Mantel & Henri R.A. Landeweerd. (1995) Design and operational control of an AGV system. International Journal of Production Economics 41:1-3, pages 257-266.
Crossref
C.J. Malmborg. (1994) Materials handling interface models for storage systems design. Materials handling interface models for storage systems design.
Ling Gou, T. Hasegawa, P.B. Luh, S. Tamura & J.M. Oblak. (1994) Holonic planning and scheduling for a robotic assembly testbed. Holonic planning and scheduling for a robotic assembly testbed.
Ihsan Sabuncuoglu & Don L. Hommertzheim. (1993) Experimental investigation of an FMS due-date scheduling problem: Evaluation of machine and AGV scheduling rules. International Journal of Flexible Manufacturing Systems 5:4, pages 301-323.
Crossref