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A lab-scale manufacturing system environment to investigate data-driven production control approaches

Authors :
Tan, Barış (ORCID 0000-0002-2584-1020 & YÖK ID 28600); Khayyati, Siamak
College of Administrative Sciences and Economic; College of Engineering; Graduate School of Sciences and Engineering
Department of Business Administration; Department of Industrial Engineering and Operations Management
Tan, Barış (ORCID 0000-0002-2584-1020 & YÖK ID 28600); Khayyati, Siamak
College of Administrative Sciences and Economic; College of Engineering; Graduate School of Sciences and Engineering
Department of Business Administration; Department of Industrial Engineering and Operations Management
Source :
Journal of Manufacturing Systems
Publication Year :
2021

Abstract

Controlling production and release of material into a manufacturing system effectively can lower work-in-progress inventory and cycle time while ensuring the desired throughput. With the extensive data collected from manufacturing systems, developing an effective real-time control policy helps achieving this goal. Validating new control methods using the real manufacturing systems may not be possible before implementation. Similarly, using simulation models can result in overlooking critical aspects of the performance of a new control method. In order to overcome these shortcomings, using a lab-scale physical model of a given manufacturing system can be beneficial. We discuss the construction and the usage of a lab-scale physical model to investigate the implementation of a data-driven production control policy in a production/inventory system. As a data-driven production control policy, the marking-dependent threshold policy is used. This policy leverages the partial information gathered from the demand and production processes by using joint simulation and optimization to determine the optimal thresholds. We illustrate the construction of the lab-scale model by using LEGO Technic parts and controlling the model with the marking-dependent policy with the data collected from the system. By collecting data directly from the lab-scale production/inventory system, we show how and why the analytical modeling of the system can be erroneous in predicting the dynamics of the system and how it can be improved. These errors affect optimization of the system using these models adversely. In comparison, the data-driven method presented in this study is considerably less prone to be affected by the differences between the physical system and its analytical representation. These experiments show that using a lab-scale manufacturing system environment is very useful to investigate different data-driven control policies before their implementation and the marking-dependent thresho<br />NA

Details

Database :
OAIster
Journal :
Journal of Manufacturing Systems
Notes :
pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1417259249
Document Type :
Electronic Resource