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Neural Computing and Applications
Erschienen in: Neural Computing and Applications 12/2020

28.06.2019 | Original Article

Solving a new cost-oriented assembly line balancing problem by classical and hybrid meta-heuristic algorithms

verfasst von: Maryam Salehi, Hamid Reza Maleki, Sadegh Niroomand

Erschienen in: Neural Computing and Applications | Ausgabe 12/2020

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Abstract

In this study, a new cost-oriented assembly line balancing problem is proposed and formulated. A single objective function consisting of minimizing the cost associated with equipment, labor wage, and station establishment is considered for the problem. This problem is more complicated comparing to the literature as worker qualification is considered for determining his/her wage. As this problem is of NP-hard optimization problems, some meta-heuristic solution approaches, e.g., simulated annealing, variable neighborhood search, genetic algorithm, tabu search, population-based simulated annealing, and their hybrid versions are proposed. In the proposed algorithms, a novel encoding–decoding scheme is applied. This scheme uses the Hungarian method to assign the workers to the station to reduce the total wage of the workers. To study the performance of the proposed meta-heuristic algorithms, ten test problems are generated randomly, and using one of them the parameters of the algorithms are tuned by the Taguchi method. The final experiments on the proposed algorithms and the test problems show that in the most of the experiments, among the proposed algorithms, the single-solution-based algorithms, except TS, perform better than the population-based algorithms, especially for the case of large size test problems.
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Literatur
1.
Amen M (2000) Heuristic methods for cost-oriented assembly line balancing: a survey. Int J Prod Econ 68:1–14CrossRef
2.
Amen M (2000) An exact method for cost-oriented assembly line balancing. Int J Prod Econ 64:187–195CrossRef
3.
Amen M (2006) Cost-oriented assembly line balancing model formulations, solution difficulty, upper and lower bounds. Eur J Oper Res 168:747–770MathSciNetMATHCrossRef
4.
Antony J, Kaye M (1999) Experimental quality-a strategic approach to achieve and improve quality. Kluwer Academic Publishers, Norwell
5.
Askin R, Zhou M (1997) A parallel station heuristic for the mixed-model production line balancing problem. Int J Prod Res 35:3095–105MATHCrossRef
6.
Atasagun Y, Kara Y (2014) Bacterial foraging optimization algorithm for assembly line balancing. Neural Comput Appl 25(1):237–250CrossRef
7.
Bai Y, Zhao H, Zhu L (2009) Mixed-model assembly line balancing using the hybrid genetic algorithm. ICMTMA 3:242–245
8.
Battaïa O, Dolgui A (2013) A taxonomy of line balancing problems and their solution approaches. Int J Prod Econ 142(2):259–277CrossRef
9.
Baykasoglu A, Dereli T (2008) Two-sided assembly line balancing using an ant-colony-based heuristic. Int J Adv Manuf Technol 36:582–588CrossRef
10.
Baykasoglu A (2006) Multi-rule multi-objective simulated annealing algorithm for straight and U type assembly line balancing problems. J Intell Manuf 17:217–232CrossRef
11.
Becker C, Scholl A (2006) A survey on problems and methods in generalized assembly line balancing. Eur J Oper Res 168(3):694–715MathSciNetMATHCrossRef
12.
Chong KE, Omar, MK, Baker NA (2008) Solving assembly line balancing problem using genetic algorithm with heuristic treated initial population. In: Proceedings of the world congress on engineering. ISBN:978-988-17012-3-7
13.
Cuoglu IS, Erel E, Alp A (2009) Ant colony optimization for the single model U-type assembly line balancing problem. Int J Prod Econ 120:287–300CrossRef
14.
Deming L, Xiuping G (2016) Variable neighborhood search for the second type of two-sided assembly line balancing problem. Comput Oper Res 72:183–188MATHCrossRef
15.
Eroglu Y, Seçkiner SU (2012) Design of wind farm layout using ant colony algorithm. Renew Energy 44:53–62CrossRef
16.
Erel E, Sarin SC (1998) A survey of the assembly line balancing procedures. Prod Plan Control 9(5):414–434CrossRef
17.
Fattahi P, Roshani A, Roshani A (2011) A mathematical model and ant colony algorithm for multi-manned assembly line balancing problem. Int J Adv Manuf Technol 53:363–378CrossRef
18.
19.
20.
Heydari A, Mahmoodirad A, Niroomand S (2016) An entropy-based mathematical formulation for straight assembly line balancing problem. Int J Strat Decision Sci (IJSDS) 7(2):57–68CrossRef
21.
Holland JH (1975) Adaptation in natural and artificial systems: an introductory analysis with applications to biology, control and artificial intelligence. MIT Press, CambridgeMATH
22.
23.
Kazemi SM, Ghodsi R, Rabbani M, Tavakkoli-Moghaddam R (2011) A novel two-stage genetic algorithm for a mixed-model U-line balancing problem with duplicated tasks. Int J Adv Manuf Technol 55:1111–1122CrossRef
24.
Kim YK, Kim YJU, Kim Y (1996) Genetic algorithms for assembly line balancing with various objectives. Comput Ind Eng 30(3):397–409MathSciNetCrossRef
25.
26.
27.
28.
Maleki HR, Khanduzi R, Akbari R (2017) A novel hybrid algorithm for solving continuous single-objective defensive location problem. Neural Comput Appl 28(11):3323–3340CrossRef
29.
Manavizadeh N, Hosseini NS, Rabbani M, Jolai F (2013) A simulated annealing algorithm for a mixed model assembly U-line balancing type-I problem considering human efficiency and JustIn-time approach. Comput Ind Eng 64:669–685CrossRef
30.
Manavizadeh N, Rabbani M, Moshtaghi D, Jolai F (2012) Mixed-model assembly line balancing in the make-to-order and stochastic environment using multi-objective evolutionary algorithms. Expert Syst Appl 39:12026–12031CrossRef
31.
32.
Mukund Nilakantan J, Ponnambalam SG, Jawahar N et al (2015) Bio-inspired search algorithms to solve robotic assembly line balancing problems. Neural Comput Appl 26(6):1379–1393CrossRef
33.
34.
Ogan D, Azizoglu M (2015) A branch and bound method for the line balancing problem in U-shaped assembly lines with equipment requirements. J Manuf Syst 36:46–54CrossRef
35.
Ozcan U, Toklu B (2009) A new hybrid improvement heuristic approach to simple straight and U-type assembly line balancing problems. J Intell Manuf 20:123–136CrossRef
36.
Ponnambalam SG, Aravindan P, Naidu GM (2000) A multiobjective genetic algorithm for solving assembly line balancing problem. Int J Adv Manuf Technol 16:341–352CrossRef
37.
Rosenberg O, Ziegler H (1992) A comparison of heuristic algorithms for cost-oriented assembly line balancing. Math Methods Oper Res 36(6):477–495MATHCrossRef
38.
Roshani A, Fattahi P, Roshani A, Salehi M, Roshani A (2012) Cost-oriented two-sided assembly line balancing problem: a simulated annealing approach. Int J Comput Integr Manuf 25(8):689–715CrossRef
39.
Rubinnovitz J, Levitin G (1995) Genetic algorithm for assembly line balancing. Int J Prod Econ 41(1):343–354CrossRef
40.
Sabuncuoglu I, Erel R, Tanyer M (2000) Assembly line balancing using genetic algorithm. J Intell Manuf 11:295–310CrossRef
41.
Sahin R (2011) A simulated annealing algorithm for solving the bi-objective facility layout problem. Expert Syst Appl 38(4):4460–4465CrossRef
42.
Sahin R, Ertogral K, Türkbey O (2010) A simulated annealing heuristic for the dynamic layout problem with budget constraint. Comput Ind Eng 59(2):308–313CrossRef
43.
Sahin R, Türkbey O (2009) A new hybrid tabu-simulated annealing heuristic for the dynamic facility layout problem. Int J Prod Res 47(24):6855–6873MATHCrossRef
44.
Sahin R, Türkbey O (2009) A simulated annealing algorithm to find approximate Pareto optimal solutions for the multi-objective facility layout problem. Int J Adv Manuf Technol 41:1003–1018CrossRef
45.
Saif U, Guan Z, Wang B, Mirza J, Huang S (2014) A survey on assembly lines and its types. Front Mech Eng 9(2):95–105CrossRef
46.
Scholl A, Becker C (2005) A note on “an exact method for cost-oriented assembly line balancing”. Int J Prod Econ 97:343–352CrossRef
47.
Scholl A, Becker C (2006) State-of-the-art exact and heuristic solution procedures for simple assembly line balancing. Eur J Oper Res 168:666–693MathSciNetMATHCrossRef
48.
Scholl A (1997) Data of assembly line balancing problems. Technische Hochschule Darmstadt, Institut für Betriebswirtschaftslehre Hochschulstraße 1, D-64289 Darmstadt, Germany
49.
Seçkiner SU, Eroglu Y, Emrullah M, Dereli T (2013) Ant colony optimization for continuous functions by using novel pheromone updating. Appl Math Comput 219:4163–4175MathSciNetMATH
50.
Seyed-Alagheband SA, Ghomi SMTF, Zandieh M (2011) A simulated annealing algorithm for balancing the assembly line type II problem with sequence-dependent setup times between tasks. Int J Prod Res 49(3):805–825CrossRef
51.
52.
Sungur B, Yavuz Y (2015) Assembly line balancing with hierarchical worker assignment. J Manuf Syst 37:290–298CrossRef
53.
Taguchi G (1986) Introduction to quality engineering. Asian Productivity Organization/UNIPUB, White Plains
54.
Tavakkoli-Moghaddam R, Azarkish M, Sadeghnejad-Barkousaraie A (2011) Solving a multi-objective job shop scheduling problem with sequence-dependent setup times by a Pareto archive PSO combined with genetic operators and VNS. Int J Adv Manuf Technol 53:733–750CrossRef
55.
Tavakkoli-Moghaddam R, Safaei N, Gholipour Y (2006) A hybrid simulated annealing for capacitated vehicle routing problems with the independent route length. Appl Math Comput 176(2):445–454MathSciNetMATH
56.
Tavakkoli-Moghaddam R, Safarib J, Sassani F (2008) Reliability optimization of series-parallel systems with a choice of redundancy strategies using a genetic algorithm. Reliab Eng Syst Saf 93(4):550–556CrossRef
57.
Turky A, Salwani A (2014) A multi-population harmony search algorithm with external archive for dynamic optimization problems. Inf Sci 272:84–95CrossRef
Metadaten
Titel
Solving a new cost-oriented assembly line balancing problem by classical and hybrid meta-heuristic algorithms
verfasst von
Maryam Salehi
Hamid Reza Maleki
Sadegh Niroomand
Publikationsdatum
28.06.2019
Verlag
Springer London
Erschienen in
Neural Computing and Applications / Ausgabe 12/2020
Print ISSN: 0941-0643
Elektronische ISSN: 1433-3058
DOI
https://doi.org/10.1007/s00521-019-04293-8

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