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Structural and Multidisciplinary Optimization

Erschienen in:

31.01.2020 | Research Paper

A decoupled credibility-based design optimization method for fuzzy design variables by failure credibility surrogate modeling

verfasst von: Beixi Jia, Zhenzhou Lu, Lu Wang

Erschienen in: Structural and Multidisciplinary Optimization | Ausgabe 1/2020

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Abstract

In order to make a good compromise of cost and safety with small data in the early structural design stage, a practical decoupled credibility-based design optimization method is developed in the presence of fuzzy uncertainty. In the proposed approach, failure credibility is constructed as optimization constraints estimated by fuzzy advanced first-order second-moment method. By approximating the fuzzy credibility constraint by the adaptive Kriging surrogate model, a fuzzy credibility-based design is decoupled to a common deterministic optimization so that various existing optimization algorithms can be easily applied. Compared to the traditional double-loop approach, the newly proposed method is more efficient and strongly practical for complicated engineering problems. Design results of three structural engineering examples also show advantages in accuracy and computation speed of the proposed method over the traditional double-loop approach.

Vorheriger Artikel Topology and shape optimization of dissipative and hybrid mufflers

Nächster Artikel Non-newtonian laminar 2D swirl flow design by the topology optimization method

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Ashkzari A and Azizi A (2014) Introducing genetic algorithm as an intelligent optimization technique. In: Applied Mechanics and Materials vol. 568–570, pp 793–797

Azizi A (2017) Introducing a novel hybrid artificial intelligence algorithm to optimize network of industrial applications in modern manufacturing. Complexity, article vol. 2017, Art. no. 8728209

Azizi A (2019) Hybrid artificial intelligence optimization technique. In: SpringerBriefs in Applied Sciences and Technology, pp 27–47

Box GEP, Draper N (2007) Response Surfaces, Mixtures, and Ridge Analysis [M]. Second Edition (of Empirical Model-Building and Response Surfaces, 1987). Wiley

Bucher CG (1988) Adaptive sampling-an iterative fast sampling fast Monte Carlo procedure. Struct Saf 5(2):119–126

Burges CJC (1998) A tutorial on support vector machines for pattern recognition. Data Min Knowl Disc 2(2):121–167

Cai KY, Wen CY, Zhang ML (1991) Fuzzy variables as a basis for a theory of fuzzy credibility in the possibility context. Fuzzy Sets Syst 42(2):145–172MATH

Chen D, Hasselman TK, Neill DJ (1997) Reliability-based structural design optimization for practical applications. In: Proceedings of the 38th AIAA/ASME/ASCE/AHS/ASC structures, structural dynamics, and material conference, Kissimmee, AIAA-97-1403

Du X, Chen W (2004) Sequential optimization and reliability assessment method for efficient probabilistic design. J Mech Des 126(2):225–233

Du L, Choi KK, Youn BD (2006) Inverse possibility analysis method for possibility-based design optimization. AIAA J 44(11):2682–2690

Dubois D, Prade H (1988) Possibility theory: an approach to computerized processing of uncertainty. Plenum, New YorkMATH

Echard B, Gayton N, Lemaire M (2011) AK-MCS: an active learning reliability method combining Kriging and Monte Carlo simulation. Struct Saf 33:145–154

Elishakoff I, Chamis CC (2001) Interrelation between safety factors and reliability

Elishakoff I, Haftka RT, Fang J (1994) Structural design under bounded uncertainty-optimization with anti-optimization [J]. Comput Struct 57(6):1401–1405MATH

Freudenthal AM (1961) Safety, reliability and structural design [J]. J Struct Div 87:1–16

Hasofer AM, Lind NC (1974) An exact and invariant first order reliability format. ASCE J Eng Mech 100(1):111–121

Jia B, Lu Z (2018) Root finding method of failure credibility for fuzzy safety analysis. Struct Multidiscip Optim 58(5):1917–1934

Kirjner-Neto C, Polak E, Der Kiureghian A (1998) An outer approximation approach to reliability-based optimal design of structures. J Optim Theory Appl 98(1):1–16MathSciNetMATH

Kleijnen JPC (2009) Kriging metamodeling in simulation: a review. Eur J Oper Res 192(3):707–716MathSciNetMATH

Kuschel N, Rackwitz R (1997) Two basic problems in reliability-based structural optimization. Math Methods Oper Res 46(3):309–333MathSciNetMATH

Kuschel N, Rackwitz R (2000) Optimal design under time-variant reliability constraints. Struct Saf 22(2):113–127MATH

Liao KW, Ha C (2008) Application of reliability-based optimization to earth-moving machine: hydraulic cylinder components design process [J]. Struct Multidiscip Optim 36(5):523–536

Liu JS (2001) Monte Carlo strategies in scientific computing. Springer, New York, p 114

Liu B (2007) Uncertainty theory, 2nd edn. Springer

Liu C, Lv Z, Xu Y (2006) Reliability analysis for the crack growth of powder metallurgy turbine disk. Rare Metal Mater Eng 35(2):232–236

Lombardi M (1998) Optimization of uncertain structures using non-probabilistic models [J]. Comput Struct 67:99–103MATH

Lophaven SN, Nielsen HB, Sondergaard J (2002) DACE, a matlab Kriging toolbox, version 2.0. Technical University of Denmark

Madsen HO, Friis Hansen F (1992) A comparison of some algorithms for reliability-based structural optimization and sensitivity analysis. In: Rackwitz R, Thoft-Christensen P (eds) Proceedings of the 4th IFIPWG 7.5 conference, Munich. Springer-Verlag, Berlin, pp 443–451

Melchers RE (1989) Importance sampling in structural system. Struct Saf 6(1):3–10

Möller B, Graf W, Beer M (2000) Fuzzy structural analysis using α−level optimization. Comput Mech 26547–565

Mourelatos ZP, Zhou J (2005) Reliability estimation and design with insufficient data based on possibility theory. AIAA J 43(8):1696–1705

Nikolaidis E, Burdisso R (1988) Reliability-based design optimization using probabilistic sufficiency factor. Comput Struct 28(6):781–788MATH

Rosenblueth E (1975) Point estimation for probability moments. Proc Natl Acad Sci 72(10):3812–3814MathSciNetMATH

Royset JO, Der Kiureghian A, Polak E (2001) Reliability-based optimal structural design by the decoupling approach. Reliab Eng Syst Saf 73(3):213–221

Tang ZC, Lu ZZ, Hu JX (2014) An efficient approach for design optimization of structures involving fuzzy variables. Fuzzy Sets Syst 225:52–73MathSciNet

Tu J, Choi KK (1999) A new study on reliability-based design optimization. J Mech Des 121(4):557–564

Wang C, Matthies HG, Qiu Z (2017) Optimization-based inverse analysis for membership function identification in fuzzy steady-state heat transfer problem. Struct Multidisc Optim 57(4):1495–1505

Wu YT, Wang W (1998) Efficient probabilistic design by converting reliability constraints to approximately equivalent deterministic constraints. J Integr Des Process Sci 2(4):13–21

Xu L, Lu W (2000) Crack growth failure probability of PM turbine disk [J]. Mech Sci Technol 19(2):210–212

Zhang CY, Zhang Z, Fei C-W, Yuan Z-S, Wei J-S, Tang W-Z (2019) Fuzzy multi-SVR learning model for reliability-based design optimization of turbine blades. Materials (Basel) 12(15):2341

Titel: A decoupled credibility-based design optimization method for fuzzy design variables by failure credibility surrogate modeling
verfasst von: Beixi Jia
Zhenzhou Lu
Lu Wang
Publikationsdatum: 31.01.2020
Verlag: Springer Berlin Heidelberg
Erschienen in: Structural and Multidisciplinary Optimization / Ausgabe 1/2020
Print ISSN: 1615-147X
Elektronische ISSN: 1615-1488
DOI: https://doi.org/10.1007/s00158-020-02487-6

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