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International Journal of Production Research Volume 58, 2020 - Issue 2
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Articles

An iterative decomposition for asynchronous mixed-model assembly lines: combining balancing, sequencing, and buffer allocation

Thiago Cantos LopesGraduate Program in Electrical and Computer Engineering (CPGEI), Federal University of Technology – Paraná (UTFPR), Curitiba, BrazilORCID Iconhttps://orcid.org/0000-0003-3541-2788View further author information
ORCID Icon,
Celso Gustavo Stall SikoraGraduate Program in Electrical and Computer Engineering (CPGEI), Federal University of Technology – Paraná (UTFPR), Curitiba, Brazil;Institute for Operations Research, Hamburg Business School, University of Hamburg, Hamburg, GermanyORCID Iconhttps://orcid.org/0000-0001-9180-1206View further author information
ORCID Icon,
Adalberto Sato MichelsGraduate Program in Electrical and Computer Engineering (CPGEI), Federal University of Technology – Paraná (UTFPR), Curitiba, BrazilORCID Iconhttps://orcid.org/0000-0003-2635-9700View further author information
ORCID Icon &
Leandro MagatãoGraduate Program in Electrical and Computer Engineering (CPGEI), Federal University of Technology – Paraná (UTFPR), Curitiba, BrazilCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-6917-9753View further author information
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Pages 615-630 | Received 11 Sep 2018, Accepted 07 Mar 2019, Published online: 16 Apr 2019
 
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Abstract

Asynchronous Mixed-Model Assembly lines are common production layouts dedicated to large-scale manufacturing of similar products. Cyclically scheduling such products is an interesting strategy to obtain high and stable throughput. In order to best optimise these lines, it is necessary to combine line balancing, model sequencing, and buffer allocation. However, few works integrate these three degrees of freedom, and evaluating steady-state performance as a consequence of these decisions is challenging. This paper presents a mathematical model that allows an exact steady-state performance evaluation of these lines, and hence their optimisation. While the combination of degrees of freedom is advantageous, it is also computational costly. An iterative decomposition procedure based on alternation between two mathematical models and on optimality cuts is also presented. The decomposition is tested against the proposed mathematical model in a 700-instance dataset. The developed methods obtained 142 optimal answers. Results show that the decomposition outperforms the monolithic mathematical model, in particular for larger and harder instances in terms of solution quality. The optimality cuts are also shown to help the decomposition steps in terms of solution quality and time. Comparisons to a sequential procedure further demonstrate the importance of simultaneously optimising the three degrees of freedom, as both the proposed model and the decomposition outperformed such procedure.

Disclosure statement

No potential conflict of interest was reported by the authors.

ORCID

Thiago Cantos Lopes  http://orcid.org/0000-0003-3541-2788

Celso Gustavo Stall Sikora  http://orcid.org/0000-0001-9180-1206

Adalberto Sato Michels  http://orcid.org/0000-0003-2635-9700

Leandro Magatão  http://orcid.org/0000-0002-6917-9753

Additional information

Funding

The authors thank the financial support from Fundação Araucária (agreement 041/2017 FA – UTFPR – RENAULT) and CNPq [grant numbers 406507/2016-3 and 307211/2017-7].

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