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Citation
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HERO ID
7170649
Reference Type
Journal Article
Title
An analytical approach to improving due-date and lead-time dynamics in production systems
Author(s)
Duffle, N; Bendul, J; Knollmann, M; ,
Year
2017
Is Peer Reviewed?
1
Journal
Journal of Manufacturing Systems
ISSN:
0278-6125
EISSN:
1878-6642
Publisher
ELSEVIER SCI LTD
Location
OXFORD
Page Numbers
273-285
DOI
10.1016/j.jmsy.2017.10.001
Web of Science Id
WOS:000419417100022
Abstract
A deterioration of due-date reliability is often attributed by planners to external causes rather than to their own planning behavior. Particularly, planners tend to underestimate the effects of time delays, and may not sufficiently take control actions into account that have been initiated but are not yet demonstrating any effects. Unfavorable dynamic behavior can result if planners react inappropriately to short-term decreases in due-date reliability and, for example, use their intuition to adjust planned lead times. A better understanding is needed of the impact of time delays and lead-time-related adjustments on resulting system behavior and of how often plans and associated work releases should be adjusted in practice.In this paper, two planning and control approaches are modeled and analyzed: First, a production system is modeled in which planned lead times and work input are adjusted periodically if the average lead time deviates from the planned lead time. Second, a production system is modeled in which regulation of lead time towards a planned lead time is accomplished by adjusting the work input. For both approaches, discrete (z-transform) equations are obtained that allow trends in dynamic behavior to be characterized as a function of delays in obtaining production information, and delays in making lead time adjustment decisions and implementing them. Industrial data from a steel-producing company are used to illustrate the potential effects of time delays and of averaging of lead time data, as well as to illustrate how analytical results can be-used to guide selection ofthe adjustment period and of lead time regulation parameters. The analytical approach presented here can be used as a tool for quantifying and guiding improvements in the performance, the robustness, and the agility of production systems. This is of particular interest with respect to cyber-physical technologies such as autonomous data collection and embedded models that present significant future opportunities for reducing delays in decision making and decision implementation. (c) 2017 The Society of Manufacturing Engineers. Published by Elsevier Ltd. All rights reserved.
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