Author
Listed:
- Nuno O. Fernandes
- Matthias Thürer
- Mark Stevenson
Abstract
Workload Control withholds orders from the shop floor in a backlog from which they are released to meet certain performance metrics. This release decision precedes the execution of orders at shop floor stations. For each station there are consequently three types of workload: indirect, released work that is still upstream of the station; direct, work that is currently at the station; and, completed, work that is still on the shop floor but is downstream of the station. Most release methods control an aggregate workload made up of some representation of at least two of these three workload types. Yet the core objective of Workload Control release methods relates to only one of the three types – that is, to create a small, stable direct load in front of each station. Clearly, order release would be greatly simplified if only the direct load had to be considered. Using discrete event simulation, we show that Direct Workload Control leads to performance levels that match those of more complex and sophisticated approaches to Workload Control. Further, it greatly simplifies continuous order release, decentralising the release decision by allowing it to be executed at each gateway station. This has important implications for research and practice.Highlights Presents a new Workload Control release method that controls the direct load only.The new method significantly simplifies workload calculations.The new method can be decentralised with control exercised locally at gateway stations.Simulation results demonstrate comparable performance to more sophisticated methods.The new method improves the performance of large jobs.
Suggested Citation
Nuno O. Fernandes & Matthias Thürer & Mark Stevenson, 2022.
"Direct Workload Control: simplifying continuous order release,"
International Journal of Production Research, Taylor & Francis Journals, vol. 60(4), pages 1424-1437, February.
Handle:
RePEc:taf:tprsxx:v:60:y:2022:i:4:p:1424-1437
DOI: 10.1080/00207543.2020.1857451
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