Rafael Diaz & Ali Ardalan. (2023) Innovating in data-driven production environments: simulation analysis of Net-CONWIP priority rule. Industrial Management & Data Systems 123:5, pages 1569-1598.
Crossref
Paulus Wisnu Anggoro, Tonny Yuniarto, Baju Bawono, Djoko Budiyanto Setyohadi, Petrus Setya Murdapa & Jamari Jamari. (2023) System dynamics modelling for calculation of carbon footprint on a non-homogeneous production system: A case in a ceramic studio. Results in Engineering 17, pages 100812.
Crossref
Federica Costa, Kaustav Kundu, Matteo Rossini & Alberto Portioli-Staudacher. (2022) Comparative study of bottleneck-based release models and load-based ones in a hybrid MTO-MTS flow shop: an assessment by simulation. Operations Management Research 16:1, pages 33-48.
Crossref
Patrick Bründl, Micha Stoidner, Huong Giang Nguyen, Andreas Baechler & Jörg Franke. 2023. Advances in Production Management Systems. Production Management Systems for Responsible Manufacturing, Service, and Logistics Futures. Advances in Production Management Systems. Production Management Systems for Responsible Manufacturing, Service, and Logistics Futures
67
79
.
Matthias Thürer, Shan Shan Li, Can Yang, Ting Qu & George Q. Huang. 2023. Advances in Production Management Systems. Production Management Systems for Responsible Manufacturing, Service, and Logistics Futures. Advances in Production Management Systems. Production Management Systems for Responsible Manufacturing, Service, and Logistics Futures
649
661
.
Guido Vinci Carlavan & Daniel Alejandro Rossit. 2023. Intelligent and Transformative Production in Pandemic Times. Intelligent and Transformative Production in Pandemic Times
573
581
.
Guido Vinci-Carlavan & Daniel Alejandro Rossit. (2022) Personalized production in Industry 4.0: a CONWIP approach. Personalized production in Industry 4.0: a CONWIP approach.
Fernando José Gómez Paredes, Moacir Godinho Filho, Matthias Thürer, Nuno O. Fernandes & Charbel José Chiappeta Jabbour. (2020) Factors for choosing production control systems in make-to-order shops: a systematic literature review. Journal of Intelligent Manufacturing 33:3, pages 639-674.
Crossref
Jon Lerche, Peter EnevoldsenOlli Seppänen. (2022) Application of Takt and Kanban to Modular Wind Turbine Construction. Journal of Construction Engineering and Management 148:2.
Crossref
Jyotirmoy Dalal & Ananth V. Iyer. (2021) Capacity planning for large scale people movement: Models and application to the Ujjain Kumbh Mela. Naval Research Logistics (NRL) 68:8, pages 1018-1036.
Crossref
Vishal Bansal & Debjit Roy. (2021)
Stochastic modeling of multiline orders in integrated
storage‐order
picking system
. Naval Research Logistics (NRL) 68:6, pages 810-836.
Crossref
Fuli Zhou, Panpan Ma, Yandong He, Saurabh Pratap, Peng Yu & Biyu Yang. (2020) Lean production of ship-pipe parts based on lot-sizing optimization and PFB control strategy. Kybernetes 50:5, pages 1483-1505.
Crossref
Lorenzo Ragazzini, Elisa Negri & Marco Macchi. (2021) A Digital Twin-based Predictive Strategy for Workload Control. IFAC-PapersOnLine 54:1, pages 743-748.
Crossref
Federica Costa, Kaustav Kundu & Alberto Portioli-Staudacher. 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
277
287
.
George Liberopoulos. (2019) Comparison of optimal buffer allocation in flow lines under installation buffer, echelon buffer, and CONWIP policies. Flexible Services and Manufacturing Journal 32:2, pages 297-365.
Crossref
M. Bertolini, M. Braglia, M. Frosolini & L. Marrazzini. (2020) Work In Next Queue CONWIP. Computers & Industrial Engineering 143, pages 106437.
Crossref
Paul Molenda, Tizian Mezger, Oliver Oechsle, Jan Koller & Frank Döpper. (2020) Backlog-Sequencing: A Comparison between Workload Control and ConWIP using a simulation approach. Procedia CIRP 93, pages 664-669.
Crossref
José Pedro Vaz, Leonilde Varela, Bruno Gonçalves & José Machado. 2020. Advances in Design, Simulation and Manufacturing III. Advances in Design, Simulation and Manufacturing III
220
230
.
Ozgur Kabadurmus & Mehmet Bulent Durmusoglu. (2019) Design of pull production control systems using axiomatic design principles. Journal of Manufacturing Technology Management 31:3, pages 620-647.
Crossref
Rodrigo Romero-Silva, Erika Marsillac, Sabry Shaaban & Margarita Hurtado-Hernández. (2019) Serial production line performance under random variation: Dealing with the ‘Law of Variability’. Journal of Manufacturing Systems 50, pages 278-289.
Crossref
Debjit Roy & Vasudha Ravikumaran. (2019) An extensive evaluation of CONWIP-card controlled and scheduled start time based production system designs. Journal of Manufacturing Systems 50, pages 119-134.
Crossref
Taho Yang, Yu-Hsiu Hung & Kuan-Cheng Huang. (2019) A simulation study on CONWIP System Design for Bicycle Chain Manufacturing. IFAC-PapersOnLine 52:13, pages 2477-2481.
Crossref
Oladipupo Olaitan, Erlend Alfnes, Jørn Vatn & Jan Ola Strandhagen. 2018. Advances in Production Management Systems. Production Management for Data-Driven, Intelligent, Collaborative, and Sustainable Manufacturing. Advances in Production Management Systems. Production Management for Data-Driven, Intelligent, Collaborative, and Sustainable Manufacturing
355
363
.
Bacem Samet, Florent Couffin, Marc Zolghadri, Maher Barkalla & Mohamed Haddar. 2018. Design and Modeling of Mechanical Systems—III. Design and Modeling of Mechanical Systems—III
1051
1059
.
Dênis Gustavo Leonardo, Bruno Sereno, Daniel Sant Anna da Silva, Mauro Sampaio, Alexandre Augusto Massote & Jairo Celso Simões. (2017) Implementation of hybrid Kanban-CONWIP system: a case study. Journal of Manufacturing Technology Management 28:6, pages 714-736.
Crossref
Ükü ürler & Emre Berk. 2016. Decision Sciences. Decision Sciences
287
348
.
Semyon M. Meerkov & Chao-Bo Yan. (2016) Production Lead Time in Serial Lines: Evaluation, Analysis, and Control. IEEE Transactions on Automation Science and Engineering 13:2, pages 663-675.
Crossref
Yacob KhojastehYacob Khojasteh. 2016. Production Control Systems. Production Control Systems
7
24
.
Yacob KhojastehYacob Khojasteh. 2016. Production Control Systems. Production Control Systems
1
6
.
Lorena Silva Belisario, Nesrine Azouz & Henri Pierreval. (2015) Adaptive ConWIP: Analyzing the impact of changing the number of cards. Adaptive ConWIP: Analyzing the impact of changing the number of cards.
Massimo Bertolini, Giovanni Romagnoli & Francesco Zammori. (2015) Simulation of two hybrid production planning and control systems: A comparative analysis. Simulation of two hybrid production planning and control systems: A comparative analysis.
Grant MacKerron, Maneesh Kumar & Vikas Kumar. 2014. Supply Chain Strategies, Issues and Models. Supply Chain Strategies, Issues and Models
99
112
.
Saeed Yaghoubi, Siamak Noori & Amir Azaron. (2013) Lead time control in multi-class multi-stage assembly systems with finite capacity. Computers & Industrial Engineering 66:4, pages 808-817.
Crossref
Saeede Ajorlou & Issac Shams. (2012) Artificial bee colony algorithm for CONWIP production control system in a multi-product multi-machine manufacturing environment. Journal of Intelligent Manufacturing 24:6, pages 1145-1156.
Crossref
Ming Di Zong & Hou Fang Sun. (2013) An Integrated Production System Model and Project Plan Restricted Pull-Way Production Control Method for Lean Shipbuilding. Applied Mechanics and Materials 385-386, pages 1852-1859.
Crossref
Patroklos Georgiadis & Alexandra Politou. (2013) Dynamic Drum-Buffer-Rope approach for production planning and control in capacitated flow-shop manufacturing systems. Computers & Industrial Engineering 65:4, pages 689-703.
Crossref
Chan-Woo Park & Hyo-Seong Lee. (2013) Performance evaluation of a multi-product CONWIP assembly system with correlated external demands. International Journal of Production Economics 144:1, pages 334-344.
Crossref
Alireza Farnoush & Magnus Wiktorsson. (2013) POLCA and CONWIP performance in a divergent production line: an automotive case study. Journal of Management Control 24:2, pages 159-186.
Crossref
Liang Zhang. (2013)
Kanban
‐controlled exponential production lines: analysis and design
. Journal of Manufacturing Technology Management 24:3, pages 358-383.
Crossref
Paolo Renna. 2013. Business Strategies and Approaches for Effective Engineering Management. Business Strategies and Approaches for Effective Engineering Management
1
21
.
Semyon M. Meerkov & Chao-Bo Yan. (2013) Production Lead Time Problem: Formulation and Solution for Bernoulli Serial Lines. IFAC Proceedings Volumes 46:9, pages 676-681.
Crossref
Chong Kuan Eng & Lim Ke Sin. (2013) CONWIP based Control of a Semiconductor End of Line Assembly. Procedia Engineering 53, pages 607-615.
Crossref
Svenja LagershausenSvenja Lagershausen. 2013. Performance Analysis of Closed Queueing Networks. Performance Analysis of Closed Queueing Networks
15
44
.
Dong-Ping SongDong-Ping Song. 2013. Optimal Control and Optimization of Stochastic Supply Chain Systems. Optimal Control and Optimization of Stochastic Supply Chain Systems
131
148
.
Francesco Nucci & Antonio Grieco. (2012) A simulation-based lean production approach at a low-volume parts manufacturer with part combining. A simulation-based lean production approach at a low-volume parts manufacturer with part combining.
Zong Mingdi & Sun Houfang. (2012) An integrated method of hierarchical planning and “pull-way” production control for lean shipbuilding. An integrated method of hierarchical planning and “pull-way” production control for lean shipbuilding.
Shi-chao Luan, Guo-zhu Jia & Wen Kong. (2012) A mathematical programming formulation approach to the number of POLCA cards. A mathematical programming formulation approach to the number of POLCA cards.
Ryo Sato & Yaghoub Khojasteh-Ghamari. (2010) An integrated framework for card-based production control systems. Journal of Intelligent Manufacturing 23:3, pages 717-731.
Crossref
Pedro L. González-R, José M. Framinan & Henry Pierreval. (2011) Token-based pull production control systems: an introductory overview. Journal of Intelligent Manufacturing 23:1, pages 5-22.
Crossref
Yaghoub Khojasteh-Ghamari. (2009) Developing a framework for performance analysis of a production process controlled by Kanban and CONWIP. Journal of Intelligent Manufacturing 23:1, pages 61-71.
Crossref
Judith Matzka, Maria Di Mascolo & Kai Furmans. (2009) Buffer sizing of a Heijunka Kanban system. Journal of Intelligent Manufacturing 23:1, pages 49-60.
Crossref
Klaus-Peter Kistner. (2011) Warteschlangen-Modelle in der Produktionsplanung – Möglichkeiten und GrenzenQueueing models in production management. Zeitschrift für Betriebswirtschaft 81:S4, pages 55-79.
Crossref
Christoph KarrerChristoph Karrer. 2012. Engineering Production Control Strategies. Engineering Production Control Strategies
7
36
.
Na Li, Shiqing Yao, George Liu & Caihua Zhuang. (2010) Optimization of a multi-Constant Work-in-Process semiconductor assembly and test factory based on performance evaluation. Computers & Industrial Engineering 59:2, pages 314-322.
Crossref
Ruey-Shan Guo, Ming-Huang Chiang, Hon-Wen Lin & Jia-Ying Chen. (2010) Forward Echelon-Based Inventory Monitoring in a Semiconductor Supply Chain. IEEE Transactions on Semiconductor Manufacturing 23:2, pages 236-245.
Crossref
Muris Lage Junior & Moacir Godinho Filho. (2010) Variations of the kanban system: Literature review and classification. International Journal of Production Economics 125:1, pages 13-21.
Crossref
P. Lavoie, A. Gharbi & J.-P. Kenné. (2010) A comparative study of pull control mechanisms for unreliable homogenous transfer lines. International Journal of Production Economics 124:1, pages 241-251.
Crossref
Mesut Yavuz. 2010. Production Engineering and Management under Fuzziness. Production Engineering and Management under Fuzziness
59
75
.
Alexandre Dolgui & Jean-Marie Proth. 2010. Supply Chain Engineering. Supply Chain Engineering
109
161
.
Yaghoub Khojasteh-Ghamari. (2008) A performance comparison between Kanban and CONWIP controlled assembly systems. Journal of Intelligent Manufacturing 20:6, pages 751-760.
Crossref
Sanjay Sharma & Narayan Agrawal. (2009) Selection of a pull production control policy under different demand situations for a manufacturing system by AHP-algorithm. Computers & Operations Research 36:5, pages 1622-1632.
Crossref
Jan Riezebos, Warse Klingenberg & Christian Hicks. (2009) Lean Production and information technology: Connection or contradiction?. Computers in Industry 60:4, pages 237-247.
Crossref
Jan-Arne Pettersen & Anders Segerstedt. (2009) Restricted work-in-process: A study of differences between Kanban and CONWIP. International Journal of Production Economics 118:1, pages 199-207.
Crossref
Jens Zimmermann, Scott J. Mason, John W. Fowler & Lars Monch. (2008) Determining an appropriate number of FOUPs in semiconductor wafer fabrication facilities. Determining an appropriate number of FOUPs in semiconductor wafer fabrication facilities.
S. T. Enns & Paul Rogers. (2008) Clarifying CONWIP versus push system behavior using simulation. Clarifying CONWIP versus push system behavior using simulation.
Angelos A. Economopoulos & Vassilis S. Kouikoglou. (2008) Analysis of a simple CONWIP system with impatient customers. Analysis of a simple CONWIP system with impatient customers.
Marco Aurélio de Mesquita & Roberto Lopes de Castro. (2008) Análise das práticas de planejamento e controle da produção em fornecedores da cadeia automotiva brasileira. Gestão & Produção 15:1, pages 33-42.
Crossref
H. Jodlbauer. (2008) Customer driven production planning. International Journal of Production Economics 111:2, pages 793-801.
Crossref
Flávio Cesar Faria Fernandes & Moacir Godinho Filho. (2007) Sistemas de coordenação de ordens: revisão, classificação, funcionamento e aplicabilidade. Gestão & Produção 14:2, pages 337-352.
Crossref
Jose M. Framinan, Pedro L. González & Rafael Ruiz-Usano. (2006) Dynamic card controlling in a Conwip system. International Journal of Production Economics 99:1-2, pages 102-116.
Crossref
Dong Cao & Mingyuan Chen. (2005) A mixed integer programming model for a two line CONWIP-based production and assembly system. International Journal of Production Economics 95:3, pages 317-326.
Crossref