Multi-objective optimization of cycle time and energy consumption in parallel robotic assembly lines using a discrete firefly algorithm

Soysal-Kurt, Halenur; İşleyen, Selçuk Kürşat

doi:10.1108/ec-12-2020-0747

2022

DOI: 10.1108/ec-12-2020-0747

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Multi-objective optimization of cycle time and energy consumption in parallel robotic assembly lines using a discrete firefly algorithm

Halenur Soysal-Kurt

Selçuk Kürşat İşleyen

Abstract: PurposeAssembly lines are one of the places where energy consumption is intensive in manufacturing enterprises. The use of robots in assembly lines not only increases productivity but also increases energy consumption and carbon emissions. The purpose of this paper is to minimize the cycle time and total energy consumption simultaneously in parallel robotic assembly lines (PRAL).Design/methodology/approachDue to the NP-hardness of the problem, A Pareto hybrid discrete firefly algorithm based on probability att… Show more

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2024

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Cited by 7 publications

References 42 publications

(107 reference statements)

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Using parallel metaheuristics to solve a parallel U-shaped robotic mixed-model assembly line balancing and sequencing problem

Farsi,

Mokhtarzadeh,

Rabbani

et al. 2024

Soft Comput

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Using parallel metaheuristics to solve a parallel U-shaped robotic mixed-model assembly line balancing and sequencing problem

Farsi,

Mokhtarzadeh,

Rabbani

et al. 2024

Soft Comput

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Balancing and sequencing of mixed-model parallel robotic assembly lines considering energy consumption

Soysal-Kurt,

İşleyen,

Gökçen

2024

Flex Serv Manuf J

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As technology advances, the integration of robots in the assembly line has become widespread. While robots offer numerous benefits, such as increased productivity and improved product quality, they also result in higher energy usage. Finding the optimal line balance while considering energy consumption is a challenging task in a robotic assembly line that produces multiple product models in a mixed sequence. This paper addresses the mixed-model parallel robotic assembly line balancing and model sequencing (MPRALB/S) problem. The objectives of this problem are to minimize cycle time and energy consumption. The authors have not found any existing research on this topic in the literature. To solve the MPRALB/S problem, a modified non-dominated sorting genetic algorithm II (MNSGA-II) is developed. Since there is no existing benchmark data for the MPRALB/S problem, new datasets are generated for this study. The MPRALB/S problem is illustrated through a numerical example. The performance of MNSGA-II is evaluated with non-dominated sorting genetic algorithm II (NSGA-II) and restarted simulated annealing through commonly used performance metrics including hypervolume ratio (HVR), ratio of non-dominated solutions (RP) and generational distance (GD). According to the results of the computational study, MNSGA-II outperforms NSGA-II in approximately 81% of the problem instances for HVR, 71% for RP, and 76% for GD. The results show that MNSGA-II is an effective approach for solving the MPRALB/S problem and achieves competing performance compared to other algorithms.

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Constraint programming models for parallel robotic assembly line balancing problems considering energy-efficiency

Kubilay,

Öztop,

Çil

2024

Flex Serv Manuf J

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Multi-objective optimization of cycle time and energy consumption in parallel robotic assembly lines using a discrete firefly algorithm

Cited by 7 publications

References 42 publications

Using parallel metaheuristics to solve a parallel U-shaped robotic mixed-model assembly line balancing and sequencing problem

Using parallel metaheuristics to solve a parallel U-shaped robotic mixed-model assembly line balancing and sequencing problem

Balancing and sequencing of mixed-model parallel robotic assembly lines considering energy consumption

Constraint programming models for parallel robotic assembly line balancing problems considering energy-efficiency

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