System dynamics model for flow time and lot sizes optimization according to Quick Response Manufacturing (QRM) strategy
2027-01-31Fecha
Autores
Directores
Handle
https://riunet.upv.es/handle/10251/190362
Cita bibliográfica
Marín-Martínez, F.; Campuzano-Bolarín, F.; Cañas-Sánchez, HE.; Mula, J. (2021). System dynamics model for flow time and lot sizes optimization according to Quick Response Manufacturing (QRM) strategy. Dyna: Ingeniería e Industria. 96(1):105-111. https://doi.org/10.6036/9661
Titulación
Resumen
[EN] The aim of this paper is to propose a simulation model based on system dynamics and the elements that compose the Quick Response Manufacturing (QRM) strategy. The developed model is a very useful decision-making tool as it helps to obtain process flow times and lot sizes in manufacturing environments whose competitive strategy focuses on markets that demand wide variability and product customization. By simulating four different scenarios, the effects of variability and machine resources utilization are evaluated. The results show that a minimal change in machine resources utilization strongly impacts process flow times and, consequently, another critical QRM variable like Manufacturing Critical-Path Time (MCT).
Palabras clave
Simulation, System dynamics, Quick response manufacturing, Flow time, Operations management
ISSN
0012-7361
ISBN
Fuente
Dyna: Ingeniería e Industria
DOI
10.6036/9661
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Patrocinadores
Agradecimientos
This research work has been funded by the draft national R&D plan entitled "Optimization of zero-defect production technologies enablers for supply chains 4.0 (CADS4.0)" (Ref. RTI2018-101344-B-I00).