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Structural and Multidisciplinary Optimization

Erschienen in:

16.04.2018 | RESEARCH PAPER

Global kriging surrogate modeling for general time-variant reliability-based design optimization problems

verfasst von: Lara Hawchar, Charbel-Pierre El Soueidy, Franck Schoefs

Erschienen in: Structural and Multidisciplinary Optimization | Ausgabe 3/2018

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Abstract

While design optimization under uncertainty has been widely studied in the last decades, time-variant reliability-based design optimization (t-RBDO) is still an ongoing research field. The sequential and mono-level approaches show a high numerical efficiency. However, this might be to the detriment of accuracy especially in case of nonlinear performance functions and non-unique time-variant most probable failure point (MPP). A better accuracy can be obtained with the coupled approach, but this is in general computationally prohibitive. This work proposes a new t-RBDO method that overcomes the aforementioned limitations. The main idea consists in performing the time-variant reliability analysis on global kriging models that approximate the time-dependent limit state functions. These surrogates are built in an artificial augmented reliability space and an efficient adaptive enrichment strategy is developed that allows calibrating the models simultaneously. The kriging models are consequently only refined in regions that may potentially be visited by the optimizer. It is also proposed to use the same surrogates to find the deterministic design point with no extra computational cost. Using this point to launch the t-RBDO guarantees a fast convergence of the optimization algorithm. The proposed method is demonstrated on problems involving nonlinear limit state functions and non-stationary stochastic processes.

Vorheriger Artikel Topology optimization of density type for a linear elastic body by using the second derivative of a KS function with respect to von Mises stress

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Agarwal H (2004) Reliability based design optimization: formulations and methodologies, Ph.D. thesis, University of Notre Dame, Indiana

Andrieu-Renaud C, Sudret B, Lemaire M (2004) The PHI2 method: a way to compute time-variant reliability. Reliab Eng Syst Saf 84(1):75–86CrossRef

Aoues Y (2008) Optimisation fiabiliste de la conception et de la maintenance des structures, Ph.D. thesis, Université Blaise Pascal - Clermont-Ferrand II

Aoues Y, Chateauneuf A (2010) Benchmark study of numerical methods for reliability-based design optimization. Struct Multidisc Optim 41(2):277–294MathSciNetCrossRefMATH

Aoues Y, Chateauneuf A, Lemosse D, El-Hami A (2013) Optimal design under uncertainty of reinforced concrete structures using system reliability approach. Int J Uncertain Quantif 3(6):487–498MathSciNetCrossRef

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

Dubourg V (2011) Adaptive surrogate models for reliability analysis and reliability-based design optimization, Ph.D. thesis, Université Blaise Pascal - Clermont II

Dubourg V, Sudret B, Bourinet JM (2011) Reliability-based design optimization using kriging surrogates and subset simulation. Struct Multidiscip Optim 44(5):673–690CrossRef

Echard B, Gayton N, Lemaire M (2011) AK-MCS: An active learning reliability method combining Kriging and Monte Carlo Simulation. Struct Saf 33(2):145–154CrossRef

Hawchar L, El Soueidy CP, Schoefs F (2017) Principal component analysis and polynomial chaos expansion for time-variant reliability problems. Reliab Eng Syst Saf 167:406–416CrossRef

Hu Z, Du X (2013) Time-dependent reliability analysis with joint upcrossing rates. Struct Multidiscip Optim 48(5):893–907MathSciNetCrossRef

Hu Z, Du X (2015) Mixed Efficient Global Optimization for Time-Dependent Reliability Analysis. J Mech Des 137(5):051401CrossRef

Hu Z, Du X (2016) Reliability-based design optimization under stationary stochastic process loads. Eng Optim 48(8):1296–1312MathSciNetCrossRef

Hu Z, Mahadevan S (2016a) A single-loop kriging surrogate modeling for time-dependent reliability analysis. J Mech Des 138(6):061406CrossRef

Hu Z, Mahadevan S (2016b) Resilience assessment based on time-dependent system reliability analysis. ASME J Mech Des 138(11):111404CrossRef

Huang SP, Quek ST, Phoon KK (2001) Convergence study of the truncated Karhunen–Loeve expansion for simulation of stochastic processes. Int J Numer Meth Engng 52(9):1029–1043CrossRefMATH

Jensen HA, Kusanovic DS, Valdebenito MA, Schuëller GI (2012) Reliability-based design optimization of uncertain stochastic systems: gradient-based scheme. J Eng Mech 138(1):60–70CrossRef

Jiang C, Huang XP, Han X, Zhang DQ (2014) A time-variant reliability analysis method based on stochastic process discretization. J Mech Des 136(9):091009CrossRef

Jones D, Schonlau M, Welch W (1998) Efficient global optimization of expensive black-box functions. J Glob Optim 13(4):455–492MathSciNetCrossRefMATH

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

Lee TH, Jung JJ (2008) A sampling technique enhancing accuracy and efficiency of metamodel-based RBDO: Constraint boundary sampling. Comput Struct 86(13):1463–1476CrossRef

Li CC, Der Kiureghian A (1993) Optimal Discretization of Random Fields. J Eng Mech 119(6):1136–1154CrossRef

Li J, Mourelatos Z, Singh A (2012) Optimal preventive maintenance schedule based on lifecycle cost and time-dependent reliability. SAE Int J Mater Manuf 5(1):87–95CrossRef

Marrel A, Iooss B, Van Dorpe F, Volkova E (2008) An efficient methodology for modeling complex computer codes with Gaussian processes. Comput Stat Data Anal 52(10):4731–4744MathSciNetCrossRefMATH

Meng Z, Zhou H, Li G, Yang D (2016) A decoupled approach for non-probabilistic reliability-based design optimization. Comput Struct 175:65–73CrossRef

Phoon KK, Huang SP, Quek S (2005) Simulation of strongly non-Gaussian processes using Karhunen-Loeve expansion. Prob Eng Mech 20(2):188–198CrossRef

Polak E (1997) Optimization: algorithms and consistent approximations, Springer

Rathod V, Yadav OP, Rathore A, Jain R (2012) Reliability-based design optimization considering probabilistic degradation behavior. Qual Reliab Eng Int 28(8):911–923CrossRef

Rice SO (1944) Mathematical Analysis of Random Noise. Bell Syst Tech J 23(3):282–332MathSciNetCrossRefMATH

Singh A, Mourelatos Z, Li J (2010) Design for lifecycle cost using time-dependent reliability. J Mech Des 132(9):091008CrossRef

Sudret B, Der Kiureghian A (2000) Stochastic finite element methods and reliability: a state-of-the-art report. University of California, Berkley

Taflanidis AA, Beck JL (2009) Stochastic subset optimization for reliability optimization and sensitivity analysis in system design. Comput Struct 87(5):318–331CrossRef

Wang Z, Chen W (2017) Confidence-based adaptive extreme response surface for time-variant reliability analysis under random excitation. Struct Saf 64:76–86CrossRef

Wang Z, Wang P (2012) A nested extreme response surface approach for time-dependent reliability-based design optimization. J Mech Des 134(12):121007CrossRef

Wang Z, Wang P (2013) A new approach for reliability analysis with time-variant performance characteristics. Reliab Eng Syst Saf 115:70–81CrossRef

Wu YT (1994) Computational methods for efficient structural reliability and reliability sensitivity analysis. AIAA J 32(8):1717–1723CrossRefMATH

Zhang D, Han X, Jiang C, Liu J, Li Q (2017) Time-dependent reliability analysis through response Surface method. J Mech Des 139(4):041404CrossRef

Titel: Global kriging surrogate modeling for general time-variant reliability-based design optimization problems
verfasst von: Lara Hawchar
Charbel-Pierre El Soueidy
Franck Schoefs
Publikationsdatum: 16.04.2018
Verlag: Springer Berlin Heidelberg
Erschienen in: Structural and Multidisciplinary Optimization / Ausgabe 3/2018
Print ISSN: 1615-147X
Elektronische ISSN: 1615-1488
DOI: https://doi.org/10.1007/s00158-018-1938-y

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