A Bender's algorithm of decomposition used for the parallel machine problem of robotic cell

Mohammad Reza Komari Alaei; Mehmet Soysal; Atabak Elmi; Audrius Banaitis; Nerija Banaitiene; Reza Rostamzadeh; Shima Javanmard

doi:10.3390/math9151730

A Bender's algorithm of decomposition used for the parallel machine problem of robotic cell

Mohammad Reza Komari Alaei
, Mehmet Soysal
, Atabak Elmi
, Audrius Banaitis
, Nerija Banaitiene
, Reza Rostamzadeh
, Shima Javanmard

Division of Production Management

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

The present research addresses the single transportation robot used to alleviate problems of robotic cell scheduling of the machines. For the purpose of minimizing the make‐span, a model of mixed‐integer linear programming (MILP) has been suggested. Since the inefficiency exists in NP‐hard, a decomposition algorithm posed by Bender was utilized to alleviate the problem in real life situations. The proposed algorithm can be regarded as an efficient attempt to apply optimality Bender's cuts regarding the problem of parallel machine robotic cell scheduling in order to reach precise resolutions for medium and big sized examples. The numerical analyses have demonstrated the efficiency of the proposed solving approach.

Original language	English
Article number	1730
Journal	Mathematics
Volume	9
Issue number	15
DOIs	https://doi.org/10.3390/math9151730
Publication status	Published - 1 Aug 2021

Keywords

Benders' decomposition method
Logic‐based Benders' decomposition
Mixed integer linear programming (MILP)
Parallel machine, robotic cell scheduling problem (CSP)

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10.3390/math9151730

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title = "A Bender's algorithm of decomposition used for the parallel machine problem of robotic cell",

abstract = "The present research addresses the single transportation robot used to alleviate problems of robotic cell scheduling of the machines. For the purpose of minimizing the make‐span, a model of mixed‐integer linear programming (MILP) has been suggested. Since the inefficiency exists in NP‐hard, a decomposition algorithm posed by Bender was utilized to alleviate the problem in real life situations. The proposed algorithm can be regarded as an efficient attempt to apply optimality Bender's cuts regarding the problem of parallel machine robotic cell scheduling in order to reach precise resolutions for medium and big sized examples. The numerical analyses have demonstrated the efficiency of the proposed solving approach.",

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AU - Alaei, Mohammad Reza Komari

AU - Soysal, Mehmet

AU - Elmi, Atabak

AU - Banaitis, Audrius

AU - Banaitiene, Nerija

AU - Rostamzadeh, Reza

AU - Javanmard, Shima

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KW - Logic‐based Benders' decomposition

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KW - Parallel machine, robotic cell scheduling problem (CSP)

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A Bender's algorithm of decomposition used for the parallel machine problem of robotic cell

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