Cuckoo optimization algorithm for unit production cost in multi-pass turning operations
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  • 作者:Mohamed Arezki Mellal (1)
    Edward J. Williams (2) (3)

    1. Faculty of Engineering Sciences (FSI)     ; M鈥橦amed Bougara University ; Boumerdes ; 35000 ; Algeria
    2. Industrial and Manufacturing Systems Engineering Department     ; College of Engineering and Computer Science ; University of Michigan ; Dearborn ; 48126 ; USA
    3. Decision Sciences     ; College of Business ; University of Michigan ; Dearborn ; 48126 ; USA
  • 关键词:Multi ; pass turning operations ; Cutting parameters ; Unit production cost ; Cuckoo optimization algorithm
  • 刊名:The International Journal of Advanced Manufacturing Technology
  • 出版年:2015
  • 出版时间:January 2015
  • 年:2015
  • 卷:76
  • 期:1-4
  • 页码:647-656
  • 全文大小:452 KB
  • 参考文献:1. Zadshakoyan M, Pourmostaghimi V (2013) Genetic equation for the prediction of tool-chip contact length in orthogonal cutting. Eng Appl Artif Intell 26(7):1725鈥?730 CrossRef
    2. Rao RD, Kalyankar VD (2013) Parameter optimization of modern machining processes using teaching-learning-based optimization algorithm. Eng Appl Artif Intell 26(1):524鈥?31 CrossRef
    3. Venkata Rao R, Kalyankar VD (2013) Multi-pass turning process parameter optimization using teaching-learning-based optimization algorithm. Scientia Iranica 20(3):967鈥?74
    4. Shin YC, Joo YS (1992) Optimization of machining conditions with practical constraints. Int J Prod Res 30(12):2907鈥?919 CrossRef
    5. Chen MC, Tsai DM (1996) A simulated annealing approach for optimization of multi-pass turning operations. Int J Prod Res 34(10):2803鈥?825 CrossRef
    6. Onwubolu GC, Kumalo T (2001) Optimization of multi-pass turning operations with genetic algorithms. Int J Prod Res 39(16):3727鈥?745 CrossRef
    7. Srinivas J, Giri R, Yang SH (2009) Optimization of multi-pass turning using particle swarm intelligence. Int J Adv Manuf Technol 40(1鈥?):56鈥?6 CrossRef
    8. Yildiz AR (2013) Optimization of cutting parameters in multi-pass turning using artificial bee colony-based approach. Inf Sci 220:399鈥?07 CrossRef
    9. Costa A, Celano G, Fichera S (2011) Optimization of multi-pass turning economies through a hybrid particle swarm optimization technique. Int J Adv Manuf Technol 53(5鈥?):421鈥?33 CrossRef
    10. Crookall JR, Venkataramani N (1971) Computer optimization of multi-pass turning. Int J Prod Res 9(2):247鈥?59 CrossRef
    11. Iwata K, Iwatsubo T, Fujii S, Iwatsubo Y (1972) A probabilistic approach to the determination of the optimum cutting conditions. J Eng Ind 94(4):1099鈥?107 CrossRef
    12. Ermer DS, Kromodihardjo S. Optimization of multipass turning with constraints. Journal of Engineering for Industry Transactions of the ASME 1981;103(4):462鈥?68
    13. Alberti N. Optimization of multi-pass turning, in: Proceedings of the 14th North American Manufacturing Research Conference, USA, 1986
    14. Gopalakrishnan B, Al-Khayyal F (1991) Machine parameter selection for turning with constraints: an analytical approach based on geometric programming. Int J Prod Res 29(9):1897鈥?908 CrossRef
    15. Chen MC, Su ST (1998) Optimization of machining conditions for turning cylindrical stocks into continuous finished profiles. Int J Prod Res 36(8):2115鈥?130 CrossRef
    16. Gupta R, Batra JL, Lal GK (1995) Determination of optimal subdivision of depth of cut in multi-pass turning with constraints. Int J Prod Res 33(9):2555鈥?565 CrossRef
    17. Chen MC, Chen KY (2003) Optimization of multi-pass turning operations with genetic algorithms: a note. Int J Prod Res 41(14):3385鈥?388 CrossRef
    18. Aryanfar A, Solimanpur M (2012) Optimization of multi-pass turning operations using genetic algorithms, in: Proceedings of the 2012 International Conference on Industrial Engineering and Operations Management. Istanbul, Turkey
    19. Vijayakumar K, Prabhaharan G, Asokan P, Saravanan R (2003) Optimization of multi-pass turning operations using ant colony system. Int J Mach Tools Manuf 43(15):1633鈥?639 CrossRef
    20. Wang YC (2007) A note on 鈥榦ptimization of multi-pass turning operations using ant colony system鈥? Int J Mach Tools Manuf 47(12鈥?3):2057鈥?059 CrossRef
    21. Zheng LY, Ponnambalam SG (2010) A hybrid GA-AIS heuristic for optimization of multi-pass turning operations. In: Intelligent robotics and applications. Springer Berlin Heidelberg, Germany, pp 599鈥?11 CrossRef
    22. Saravanan R, Siva Sankar R, Asokan P, Vijayakumar K, Prabhaharan G (2005) Optimization of cutting conditions during continuous finished profile machining using non-traditional techniques. Int J Adv Manuf Technol 26(1鈥?):30鈥?0 CrossRef
    23. Yildiz AR (2012) A comparative study of population-based optimization algorithms for turning operations. Inf Sci 210:81鈥?8 CrossRef
    24. Yildiz AR (2013) Hybrid Taguchi differential evolution algorithm for optimization of multi-pass turning operations. Appl Soft Comput 13(3):1433鈥?439 CrossRef
    25. Yildiz AR (2013) Optimization of multi-pass turning operations using hybrid teaching learning based approach. Int J Adv Manuf Technol 66(9鈥?2):1319鈥?326 CrossRef
    26. Belloufi A, Assas M, Rezgui I. Intelligent selection of machining parameters in multi-pass turnings using firefly algorithm. Modeling and Simulation in Engineering 2013; In Press
    27. Belloufi A, Assas M, Rezgui I (2012) Optimization of cutting conditions in multi-pass turning using hybrid genetic algorithm-sequential quadratic programming. J Appl Mech Eng 1(1):3鈥? CrossRef
    28. Rajabioun R (2011) Cuckoo optimization algorithm. Appl Soft Comput 11(8):5508鈥?518 CrossRef
    29. Mellal MA, Adjerid S, Williams EJ (2013) Optimal selection of obsolete tools in manufacturing systems using cuckoo optimization algorithm. Chem Eng Trans 33:355鈥?60
    30. Mellal MA, Adjerid S, Williams EJ, Benazzouz D (2012) Optimal replacement policy for obsolete components using cuckoo optimization algorithm based approach: Dependability context. J Sci Ind Res 71(11):715鈥?21
    31. Rabiee M, Sajedi H (2013) Job scheduling in grid computing with cuckoo optimization algorithm. Int J Comput Appl 62(16):38鈥?4
    32. Addeh J, Ebrahimzadeh A, Azarbad M, Ranaee V. Statistical process control using optimized neural networks: A case study. ISA Transactions 2013;DOI: 10.1016/j.isatra.2013.07.018
    33. Sahab AR, Ziabari MT, Modabbernia MR (2012) A novel fractional-order hyperchaotic system with a quadratic exponential nonlinear term and its synchronization. Adv Differ Equ 2012:1鈥?1 CrossRef
    34. Teimouri R, Sohrabpoor H (2013) Application of adaptive neuro-fuzzy inference system and cuckoo optimization algorithm for analyzing electro chemical machining process. Front Mech Eng 8(4):429鈥?42 CrossRef
    35. Mellal MA, Williams EJ. Parameter optimization of advanced machining processes using cuckoo optimization algorithm and hoopoe heuristic. Journal of Intelligent Manufacturing 2014;DOI: 10.1007/s10845-014-0925-4
    36. Roozitalab A, Asgharizadeh E (2013) Optimizing the warranty period by cuckoo meta鈭抙euristic algorithm in heterogeneous customers鈥?population. J Ind Eng Int 9(27):1鈥?
  • 刊物类别:Engineering
  • 刊物主题:Industrial and Production Engineering
    Production and Logistics
    Mechanical Engineering
    Computer-Aided Engineering and Design
  • 出版者:Springer London
  • ISSN:1433-3015
文摘
The multi-pass turning process is one of the most used machining methods in manufacturing industry. The minimization of the unit production cost is considered the key objective of this operation. In this work, the cutting parameters are carried out using a recently developed advanced bio-inspired optimization algorithm, called the cuckoo optimization algorithm (COA). The obtained results are compared with previously published results available in the literature. It has been proven that the COA competes robustly with a wide range of optimization algorithms.
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