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A data-driven algorithm to predict throughput bottlenecks in a production system based on active periods of the machines

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Název: A data-driven algorithm to predict throughput bottlenecks in a production system based on active periods of the machines
Autoři: Subramaniyan, Mukund, 1989, Skoogh, Anders, 1980, Salomonsson, Hans, 1985, Bangalore, Pramod, 1983, Bokrantz, Jon, 1988
Zdroj: DAIMP - Dataanalys inom underhållsplanering Computers and Industrial Engineering. 125:533-544
Témata: shifting, Real-world, production, smart maintenance, machine learning, Industry 4.0, Predictive analytics, Digitalisation, throughput, managing bottlenecks, Maintenance, smart manufacturing, Bottleneck prediction, ARIMA, active period, constraints, decision-making, bottlenecks, bottleneck, Big data, throughput bottlenecks, prediction, data-driven, Theory of Constraints
Popis: Smart manufacturing is reshaping the manufacturing industry by boosting the integration of information and communication technologies and manufacturing process. As a result, manufacturing companies generate large volumes of machine data which can be potentially used to make data-driven operational decisions using informative computerized algorithms. In the manufacturing domain, it is well-known that the productivity of a production line is constrained by throughput bottlenecks. The operational dynamics of the production system causes the bottlenecks to shift among the production resources between the production runs. Therefore, prediction of the throughput bottlenecks of future production runs allows the production and maintenance engineers to proactively plan for resources to effectively manage the bottlenecks and achieve higher throughput. This paper proposes an active period based data-driven algorithm to predict throughput bottlenecks in the production system for the future production run from the large sets of machine data. To facilitate the prediction, we employ an auto-regressive integrated moving average (ARIMA) method to predict the active periods of the machine. The novelty of the work is the integration of ARIMA methodology with the data-driven active period technique to develop a bottleneck prediction algorithm. The proposed prediction algorithm is tested on real-world production data from an automotive production line. The bottleneck prediction algorithm is evaluated by treating it as a binary classifier problem and adapted the appropriate evaluation metrics. Furthermore, an attempt is made to determine the amount of past data needed for better forecasting the active periods.
Popis souboru: electronic
Přístupová URL adresa: https://research.chalmers.se/publication/505673
https://research.chalmers.se/publication/505673/file/505673_Fulltext.pdf
Databáze: SwePub
Popis
Abstrakt:Smart manufacturing is reshaping the manufacturing industry by boosting the integration of information and communication technologies and manufacturing process. As a result, manufacturing companies generate large volumes of machine data which can be potentially used to make data-driven operational decisions using informative computerized algorithms. In the manufacturing domain, it is well-known that the productivity of a production line is constrained by throughput bottlenecks. The operational dynamics of the production system causes the bottlenecks to shift among the production resources between the production runs. Therefore, prediction of the throughput bottlenecks of future production runs allows the production and maintenance engineers to proactively plan for resources to effectively manage the bottlenecks and achieve higher throughput. This paper proposes an active period based data-driven algorithm to predict throughput bottlenecks in the production system for the future production run from the large sets of machine data. To facilitate the prediction, we employ an auto-regressive integrated moving average (ARIMA) method to predict the active periods of the machine. The novelty of the work is the integration of ARIMA methodology with the data-driven active period technique to develop a bottleneck prediction algorithm. The proposed prediction algorithm is tested on real-world production data from an automotive production line. The bottleneck prediction algorithm is evaluated by treating it as a binary classifier problem and adapted the appropriate evaluation metrics. Furthermore, an attempt is made to determine the amount of past data needed for better forecasting the active periods.
ISSN:03608352
DOI:10.1016/j.cie.2018.04.024