Citations (24)
Keep up to date with the latest research on this topic with citation updates for this article.
Read on this site (10)
M. Zandieh. (2019) Scheduling of Virtual Cellular Manufacturing Systems: A Biogeography-Based Optimization Algorithm. Applied Artificial Intelligence 33:7, pages 594-620.
Read now
Read now
Samuel Roscoe & Constantin Blome. (2019) Understanding the emergence of redistributed manufacturing: an ambidexterity perspective. Production Planning & Control 30:7, pages 496-509.
Read now
Read now
Durk-Jouke van der Zee. (2017) Coordinating batching decisions in manufacturing networks. International Journal of Production Research 55:18, pages 5405-5422.
Read now
Read now
Adil Baykasoglu & Latife Gorkemli. (2017) Dynamic virtual cellular manufacturing through agent-based modelling. International Journal of Computer Integrated Manufacturing 30:6, pages 564-579.
Read now
Read now
Durk-Jouke van der Zee. (2015) Family-based dispatching with parallel machines. International Journal of Production Research 53:19, pages 5837-5856.
Read now
Read now
Jamal Arkat & Homa Ghahve. (2014) Scheduling of virtual manufacturing cells with outsourcing allowed. International Journal of Computer Integrated Manufacturing 27:12, pages 1079-1089.
Read now
Read now
S E Kesen & Z Güngör. (2012) Job scheduling in virtual manufacturing cells with lot-streaming strategy: a new mathematical model formulation and a genetic algorithm approach. Journal of the Operational Research Society 63:5, pages 683-695.
Read now
Read now
Saadettin Erhan Kesen & Zülal Güngör. (2011) How important is the batch splitting activity in scheduling of virtual manufacturing cells (VMCs)?. International Journal of Production Research 49:6, pages 1645-1667.
Read now
Read now
JDA Carvalho, NA Moreira & LCM Pires. (2005) Autonomous Production Systems in virtual enterprises. International Journal of Computer Integrated Manufacturing 18:5, pages 357-366.
Read now
Read now
N. C. Suresh
& J. Slomp. (2005) Performance comparison of virtual cellular manufacturing with functional and cellular layouts in DRC settings. International Journal of Production Research 43:5, pages 945-979.
Read now
Read now
Articles from other publishers (14)
María de Arquer, Borja Ponte & Raúl Pino. (2021) Examining the balance between efficiency and resilience in closed-loop supply chains. Central European Journal of Operations Research 30:4, pages 1307-1336.
Crossref
Crossref
Lucas Stelle Chemim, Nicolle Christine Sotsek & Mariana Kleina. (2021) Layout optimization methods and tools: A systematic literature review. Revista Gestão da Produção Operações e Sistemas 16:4, pages 59.
Crossref
Crossref
Masoud Rabbani, Hamed Farrokhi-Asl & Mohammad Ravanbakhsh. (2018) Dynamic cellular manufacturing system considering machine failure and workload balance. Journal of Industrial Engineering International 15:1, pages 25-40.
Crossref
Crossref
Haris Aslam, Constantin Blome, Samuel Roscoe & Tashfeen M. Azhar. (2018) Dynamic supply chain capabilities. International Journal of Operations & Production Management 38:12, pages 2266-2285.
Crossref
Crossref
Marta Pérez-Pérez, Ana-M. Serrano Bedia, María-Concepción López-Fernández & Gema García-Piqueres. (2018) Research opportunities on manufacturing flexibility domain: A review and theory-based research agenda. Journal of Manufacturing Systems 48, pages 9-20.
Crossref
Crossref
Maryam Hamedi & Gholamreza Esmaeilian. (2015) Functional and distributed layouts and their effectiveness on capability-based Virtual Cellular Manufacturing systems performance. Functional and distributed layouts and their effectiveness on capability-based Virtual Cellular Manufacturing systems performance.
Joao C.E. Ferreira & Paulo A. Reaes. (2013) Performance comparison of the virtual cell layout with cellular and job shop configurations using simulation and design of experiments. Performance comparison of the virtual cell layout with cellular and job shop configurations using simulation and design of experiments.
Saadettin Erhan Kesen, Sanchoy K. Das & Zülal Güngör. (2010) A genetic algorithm based heuristic for scheduling of virtual manufacturing cells (VMCs). Computers & Operations Research 37:6, pages 1148-1156.
Crossref
Crossref
Saadettin Erhan Kesen, Sanchoy K. Das & Zulal Gungor. (2009) A mixed integer programming formulation for scheduling of virtual manufacturing cells (VMCs). The International Journal of Advanced Manufacturing Technology 47:5-8, pages 665-678.
Crossref
Crossref
Saadettin Erhan Kesen, M. Duran Toksari, Zülal Güngör & Ertan Güner. (2009) Analyzing the behaviors of virtual cells (VCs) and traditional manufacturing systems: Ant colony optimization (ACO)-based metamodels. Computers & Operations Research 36:7, pages 2275-2285.
Crossref
Crossref
Ibrahim H. Garbie, Hamid R. Parsaei & Herman R. Leep. 2008. Collaborative Engineering. Collaborative Engineering
249
281
.
Seda Ozmutlu & Catherine M. Harmonosky. (2005) A real-time methodology for minimizing mean flowtime in FMSs with routing flexibility: Threshold-based alternate routing. European Journal of Operational Research 166:2, pages 369-384.
Crossref
Crossref
Jannes Slomp, Boppana V. Chowdary & Nallan C. Suresh. (2005) Design of virtual manufacturing cells: a mathematical programming approach. Robotics and Computer-Integrated Manufacturing 21:3, pages 273-288.
Crossref
Crossref
Gert Nomden, Jannes Slomp & Nallan C. Suresh. (2005) Virtual manufacturing cells: A taxonomy of past research and identification of future research issues. International Journal of Flexible Manufacturing Systems 17:2, pages 71-92.
Crossref
Crossref