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@PHDTHESIS{Schukat:979707,
author = {Schukat, Esben},
othercontributors = {Schuh, Günther and Burggräf, Peter},
title = {{K}apazitätsorientierte {A}uftragsfreigabe in
matrixstrukturierten {M}ontagesystemen; 1. {A}uflage},
volume = {2024,3},
school = {RWTH Aachen University},
type = {Dissertation},
address = {Aachen},
publisher = {Apprimus Verlag},
reportid = {RWTH-2024-01778},
isbn = {978-3-98555-198-9},
series = {Ergebnisse aus der Produktionstechnik},
pages = {1 Online-Ressource : Illustrationen},
year = {2024},
note = {Druckausgabe: 2024. - Auch veröffentlicht auf dem
Publikationsserver der RWTH Aachen University. - Weitere
Reihe: Produktionssystematik. - Weitere Reihe: Edition
Wissenschaft Apprimus; Dissertation, RWTH Aachen University,
2023},
abstract = {The rigid interlinking of assembly stations in assembly
lines is increasingly leading to cycle time losses and
inefficiencies. In this context, matrix-structured assembly
systems have emerged as an alternative, cycle
time-independent form of assembly organization. In
matrix-structured assembly systems, the assembly stations
are decoupled from each other and arranged
two-dimensionally, similar to the squares of a chessboard.
The assembly activities to be carried out and the assembly
stations to be passed through are determined by a reactive
assembly control system depending on individual order
characteristics and station availability. Unlike in assembly
lines, occupied, inactive or unnecessary assembly stations
can be skipped. As a result, matrix-structured assembly
systems promise a reduction in cycle time losses and
inefficiencies compared to assembly lines. At the same time,
however, the number of degrees of freedom to be taken into
account in assembly control increases and with it the
complexity. This also applies to order release, which is an
integral part of assembly control. Until now, approaches to
order release in matrix-structured assembly systems have not
been based on a detailed comparison of order-specific
capacity requirements and activity-related processing
offers. However, this is crucial for the economic evaluation
and efficient operation of matrix-structured assembly
systems. The overall objective of this dissertation is
therefore the development of a methodology for
capacity-oriented order release in matrix-structured
assembly systems. The methodology is modeled as part of an
agent system for decentralized assembly control in an
evaluation environment, whereby the interdependencies within
the assembly control are realistically modeled. The
simulation-based evaluation of the methodology is carried
out using the example of battery assembly, examining and
proving the general functionality of the methodology and its
added value, taking into account relevant productivity
indicators.},
cin = {417210 / 417200},
ddc = {620},
cid = {$I:(DE-82)417210_20140620$ / $I:(DE-82)417200_20140620$},
typ = {PUB:(DE-HGF)11 / PUB:(DE-HGF)3},
doi = {10.18154/RWTH-2024-01778},
url = {https://publications.rwth-aachen.de/record/979707},
}
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