A methodology for cost‐oriented assembly line balancing problems

Padrón, Miguel A.; Irizarry, Maria De Los A.; Resto, Pedro; Mejía, Heidy P.

doi:10.1108/17410380910997254

Cited by 19 publications

(11 citation statements)

References 14 publications

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“…This requires manufacturers to search for methods to minimize costs at all stages of production. To meet the challenges of balancing assembly lines with considering costs exact methods, heuristic and metaheuristic approaches can be applied [15][16][17].…”

Section: Methods and Models To Improve The Assembly Line Productionmentioning

confidence: 99%

Influence of the Motor Transport on Sustainable Development of Smart Cities

Makarova¹,

Shubenkova²,

Mavrin³

et al. 2019

Sustainable Cities - Authenticity, Ambition and Dream

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The transport system is one of the fundamental intelligent systems in the Smart City, and one of the main directions to ensure sustainability and safety of the city transport system is the concept of smart vehicles. Herewith, all processes at all stages of the life cycle should be intellectualized. Since the production stage of the life cycle is one of the most important, the introduction of smart technologies (Industry 4.0) in automotive industry will allow not only to optimize the processes and improve product quality but also to establish favorable conditions for the subsequent intellectualization of the automotive service. The benefits of using smart transport in all fields of activities as well as intellectualization of the decision-making process by the example of the automotive industry enterprises are presented in this chapter.

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Section: Methods and Models To Improve The Assembly Line Productionmentioning

confidence: 99%

Influence of the Motor Transport on Sustainable Development of Smart Cities

Makarova¹,

Shubenkova²,

Mavrin³

et al. 2019

Sustainable Cities - Authenticity, Ambition and Dream

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“…Stiff competitive environment requires the industries using assembly lines to produce products at a very low cost without comprising on the quality of the product in a reasonable time. To remain competitive, the manufacturers need to speed up the time to market and at the same time to minimize the manufacturing cost [2]. Different set of tasks are to be executed in a set of predefined workstations in a time efficient manner in an assembly line.…”

Section: Introductionmentioning

confidence: 99%

“…Amen's study is used as the basis of the research work of Scholl and Becker [11] and it is shown in their work that one of the rules developed by Amen is incorrect and presented a corrected and simplified version of this rule. Padrón et al [2] presented a line balancing methodology which combines a heuristic model and exact algorithm with an objective of minimizing cost in a feasible computational time. Cost function considered includes short term operating costs, task and work station capital investment costs.…”

Section: Introductionmentioning

confidence: 99%

Differential evolution algorithm for solving RALB problem using cost- and time-based models

Nilakantan

Nielsen

Ponnambalam

et al. 2016

Int J Adv Manuf Technol

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Assembly process is one of the important aspects in manufacturing industries. Industries are extensively using advanced technologies in assembly lines recently such as robots instead of human labor. Cost associated with human labor such as wages, training, safety and employee management are eliminated with the help of robots. Investments on assembly lines are cost intensive and industries continuously need to maximize their utilization. In this paper, a cost based robotic assembly line balancing problem (RALB) with an objective of minimizing assembly line cost and cycle time is addressed. Moreover, there is no research reported on concurrently optimizing cycle time and assembly line cost for a robotic assembly line system to date. The objective of this paper is to propose models with dual focus on time and cost to minimize the cycle time and total assembly line cost simultaneously. Time based model with the primary focus to optimize cycle time and the cost based model with the primary focus to optimize total assembly line cost is developed. Due to NP-hard nature, differential evolution (DE) is the algorithm used to solve the RALB problem. Straight and U-shaped robotic assembly line problems are solved using the proposed algorithm and the detailed comparison of results obtained are presented. While comparing straight and U-shaped RALB problems, assembly line cost and cycle time obtained by U-shaped RALB problems are better than the straight RALB problems. Proposed models have significant managerial implications and these have been discussed in detail.

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“…In product development, current global market con tinuously gives pressure to manufacturer to compete with competitors from all over the world. Manufacturer needs to speed up the time to market and at the same time minimise the manufacturing cost to ensure that their products remain competitive [1]. Assembly is considered one of the important processes in manufacturing.…”

Section: Introductionmentioning

confidence: 99%