An efficient migrating birds optimization algorithm with idle time reduction for Type-I multi-manned assembly line balancing problem

Multi-manned assembly line, which is broadly utilized to assemble high volume products such as automobiles and trucks, allows a group of workers to assemble different tasks simultaneously in a multi-manned workstation. This additional characteristic of parallel operators increases the complexity of...

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Veröffentlicht in:	Journal of systems engineering and electronics 2021-04, Vol.32 (2), p.286-296
Hauptverfasser:	Zikai, Zhang, Qiuhua, Tang, Zixiang, Li, Dayong, Han
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Sprache:	eng
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container_end_page	296
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container_title	Journal of systems engineering and electronics
container_volume	32
creator	Zikai, Zhang Qiuhua, Tang Zixiang, Li Dayong, Han
description	Multi-manned assembly line, which is broadly utilized to assemble high volume products such as automobiles and trucks, allows a group of workers to assemble different tasks simultaneously in a multi-manned workstation. This additional characteristic of parallel operators increases the complexity of the traditional NP-hard assembly line balancing problem. Hence, this paper formulates the Type-I multi-manned assembly line balancing problem to minimize the total number of workstations and operators, and develops an efficient migrating birds optimi-zation algorithm embedded into an idle time reduction method. In this algorithm, a new decoding mechanism is proposed which reduces the sequence-dependent idle time by some task assign-ment rules; three effective neighborhoods are developed to make refinement of existing solutions in the bird improvement phases; and temperature acceptance and competitive mecha-nism are employed to avoid being trapped in the local optimum. Comparison experiments suggest that the new decoding and improvements are effective and the proposed algorithm outper-forms the compared algorithms.
doi_str_mv	10.23919/JSEE.2021.000025
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title	An efficient migrating birds optimization algorithm with idle time reduction for Type-I multi-manned assembly line balancing problem
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