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Structural and Multidisciplinary Optimization

Erschienen in:

30.01.2016 | RESEARCH PAPER

A sequential sampling strategy to improve the global fidelity of metamodels in multi-level system design

verfasst von: Yu Liu, Yi Shi, Qiang Zhou, Renqiang Xiu

Erschienen in: Structural and Multidisciplinary Optimization | Ausgabe 6/2016

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Abstract

In engineering design, complex systems that involve a multitude of decision variables and parameters are often decomposed into several submodels (also called subsystems and/or components) with a hierarchical (multi-level) manner to manage complexity. Metamodeling techniques are widely used to replace the original time-consuming computer simulation models to further reduce computational burden in multi-level system performance analysis and design optimization. However, due to the limited samples from simulation models, metamodels may contain metamodeling uncertainties at un-sampled sites. Such metamodeling uncertainties arising from metamodels across the entire hierarchy will propagate from the lower to upper levels and eventually impact the top-level response of interest. With the aim of improving the global fidelity of metamodels for multi-level system performance analysis and design optimization, a new sequential sampling strategy is proposed in this paper. The proposed method contains two basic elements: (1) quantifying metamodeling uncertainty propagated from the lower-level metamodels to the top-level response of interest and (2) seeking a new sample site at which the global fidelity of the multi-level system model can be maximally improved. As exemplified by the two numerical examples and a multi-scale bracket structure example, with the same amount of samples from computer simulation models, the new sequential sampling strategy is superior to existing sequential sampling strategies in terms of improving the global fidelity of the metamodels of multi-level systems.

Vorheriger Artikel Optimization of excess system capability for increased evolvability

Nächster Artikel An efficient second-order SQP method for structural topology optimization

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An D, Choi JH (2012) Efficient reliability analysis based on Bayesian framework under input variable and metamodel uncertainties. Struct Multi Optim 46(4):533–547MathSciNetCrossRefMATH

Apley DW, Liu J, Chen W (2006) Understanding the effects of model uncertainty in robust design with computer experiments. ASME J Mech Des 128(4):945–958CrossRef

Arendt PD, Apley DW, Chen W (2013) Objective-oriented sequential sampling for simulation based robust design considering multiple sources of uncertainty. ASME J Mech Des 135(5):051005CrossRef

Bondouy M, Jan S, Laporte S, Bes C (2015) On the choice of surrogates for multilevel aircraft performance models. In: Greiner D, Galván B, Périaux J (eds) Advances in evolutionary and deterministic methods for design, optimization and control in engineering and sciences. Springer, London, pp 95–109

Braun R, Gage P, Kroo I, Sobieski I (1996) Implementation and performance issues in collaborative optimization. In Proceedings of The 6th AIAA/USAF/NASA/ISSMO Symposium on Multidisciplinary Analysis and Optimization, 295–305

Chen S, Cowan CFN, Grant PM (1991) Orthogonal least squares learning algorithm for radial basis function networks. IEEE Trans Neural Networks 2(2):302–309CrossRef

Chen W, Yin X, Lee S, Liu WK (2010) A multiscale design methodology for hierarchical systems with random field uncertainty. ASME J Mech Des 132(4):041006CrossRef

Currin C, Mitchell T, Morris MD, Ylvisaker D (1991) Bayesian prediction of deterministic functions, with applications to the design and analysis of computer experiments. J Am Stat Assoc 86(416):953–963MathSciNetCrossRef

Davis PJ, Rabinowitz P (2007) Methods of numerical integration, 2nd edn. Dover, New YorkMATH

DorMohammadi S, Rais-Rohani M, Rouhi M (2015) A multilevel approach for analysis and optimization of nano-enhanced composite structures. Compos Struct 131:1050–1059CrossRef

Du XP, Chen W (2005) Collaborative reliability analysis under the framework of multidisciplinary systems design. Optim Eng 6(1):63–84MathSciNetCrossRefMATH

Engquist BEW, Li X, Ren W, Vanden-Eijnden E (2007) Heterogeneous multiscale methods: a review. Commun Comput Physics 2(3):367–450MathSciNetMATH

Gerstner T, Griebel M (1998) Numerical integration using sparse grids. Numer Algorithms 18(3–4):209–232MathSciNetCrossRefMATH

Guarneri P, Gobbi M, Papalambros PY (2011) Efficient multi-level design optimization using analytical target cascading and sequential quadratic programming. Struct Multidiscip Optim 44(3):351–362MathSciNetCrossRefMATH

Haftka RT (1985) Simultaneous analysis and design. AIAA J 23(7):1099–1103CrossRefMATH

Jiang Z, Chen S, Apley DW, Chen W (2015) Resource allocation for reduction of epistemic uncertainty in simulation-based multidisciplinary design. In Proceedings of ASME 2015 International Design Engineering Technical Conferences & Computers and Information in Engineering Conference, DETC2015-47302

Jin R, Chen W, Simpson TW (2001) Comparative studies of metamodelling techniques under multiple modelling criteria. Struct Multidiscip Optim 23(1):1–13CrossRef

Jin R, Du XP, Chen W (2003) The use of metamodeling techniques for optimization under uncertainty. Struct Multidiscip Optim 25(2):99–116CrossRef

Johnson M, Moore L, Ylvisaker D (1990) Minimax and maximin distance designs. J Stat Plann Inference 26(2):131–148MathSciNetCrossRef

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

Kang N, Kokkolaras M, Papalambros PY, Yoo S, Na W, Park J, Featherman D (2014) Optimal design of commercial vehicle systems using analytical target cascading. Struct Multidiscip Optim. doi:10.1007/s00158-014-1097-8

Kim HM, Rideout DG, Papalambros PY, Stein JL (2003) Analytical target cascading in automotive vehicle design. ASME J Mech Des 125(3):481–489CrossRef

Kim HM, Kumar DKD, Chen W, Papalambros PY (2006) Target exploration for disconnected feasible regions in enterprise-driven multilevel product design. AIAA J 44(1):67–77CrossRef

Kokkolaras M, Mourelatos ZP, Papalambros PY (2006) Design optimization of hierarchically decomposed multilevel system under uncertainty. ASME J Mech Des 128(2):503–508CrossRef

Lee SH, Chen W (2009) A comparative study of uncertainty propagation methods for black-box-type problems. Struct Multidiscip Optim 37(3):239–253MathSciNetCrossRef

Liu H, Chen W, Kakkolaras M, Papalambros PY, Kim HM (2006) Probabilistic analytical target cascading: a moment matching formulation for multilevel optimization under uncertainty. ASME J Mech Des 128(4):991–1000CrossRef

Liu Y, Yin XL, Arendt P, Huang HZ (2010) A hierarchical statistical sensitivity analysis method for multilevel systems with shared variables. ASME J Mech Des 132(3):031006CrossRef

Ouyang Q, Chen X, Yao W (2014) Sequential probabilistic analytical target cascading method for hierarchical multilevel optimization under uncertainty. Struct Multidiscip Optim 49(2):267–280MathSciNetCrossRef

Pahl G, Beitz W, Feldhusen J, Grote KH (2007) Engineering design. Springer, LondonCrossRef

Picheny V, Ginsbourger D, Roustant O, Haftka RT, Kim NH (2010) Adaptive designs of experiments for accurate approximation of a target region. ASME J Mech Des 132(7):071008CrossRef

Sacks J, Welch W, Mitchell T, Wynn H (1989) Design and analysis of computer experiments. Stat Sci 4(4):409–423MathSciNetCrossRefMATH

Sankararaman S, McLemore K, Mahadevan S, Bradford SC, Peterson LD (2013) Test resource allocation in hierarchical systems using Bayesian networks. AIAA J 51(3):537–549CrossRef

Simpson TW, Mauery TM, Korte JJ, Mistree F (2001) Kriging models for global approximation in simulation-based multidisciplinary design optimization. AIAA J 39(12):2233–2241CrossRef

Tosserams S, Etman LFP, Papalambros PY, Rooda JE (2006) An augmented Lagrangian relaxation for analytical target cascading using the alternating direction method of multipliers. Struct Multidiscip Optim 31(3):176–189MathSciNetCrossRefMATH

Wagner TC (1993) A general decomposition methodology for optimal system design. Michigan: University of Michigan, 30–50

Wang GG, Shan S (2006) Review of metamodeling techniques in support of engineering design optimization. ASME J Mech Des 129(4):370–380CrossRef

Wang Z, Wang P (2010) A maximum confidence enhancement based sequential sampling scheme for simulation-based design. ASME J Mech Des 136(2):021006CrossRef

Xiong Y (2008) Using predictive models in engineering design: metamodeling, uncertainty quantification, and model validation. Evanston: Northwestern University, 2008, 35–45

Xiong Y, Chen W, Tsui KL (2008) A new variable-fidelity optimization framework based on model fusion and objective-oriented sequential sampling. ASME J Mech Des 130(11):111401CrossRef

Xiong F, Yin X, Chen W, Yang S (2010) Enhanced probabilistic analytical target cascading with application to multi-scale design. Optim Eng 42(6):581–592CrossRef

Xu H, Rahman S (2004) A generalized dimension-reduction method for multidimensional integration in stochastic mechanics. Int J Numer Methods Eng 61(12):1992–2019CrossRefMATH

Xu H, Greene MS, Deng H, Dikin D, Brinson C, Liu WK, Burkhart C, Papakonstantopoulos G, Poldneff M, Chen W (2013) Stochastic reassembly strategy for managing information complexity in heterogeneous materials analysis and design. ASME J Mech Des 135(10):101010CrossRef

Yin XL, Chen W (2008) A hierarchical statistical sensitivity analysis method for complex engineering systems design. ASME J Mech Des 130(7):071402CrossRef

Yin XL, Lee S, Chen W, Liu WK, Horstemeyer MF (2009) Efficient random field uncertainty propagation in design using multi-scale analysis. ASME J Mech Des 131(2):021006CrossRef

Zhang SL, Zhu P, Chen W (2013) Concurrent treatment of parametric uncertainty and metamodeling uncertainty in robust design. Struct Multi Optim 47(1):63–76MathSciNetCrossRefMATH

Zhao L, Choi KK, Lee I (2011) Metamodeling method using dynamic kriging for design optimization. AIAA J 49(9):2034–2046CrossRef

Zheng J, Shao XY, Gao L, Jiang P, Li Z (2013) A hybrid variable-fidelity global approximation modeling method combining tuned radial basis function base and kriging correction. J Eng Des 24(8):604–622CrossRef

Titel: A sequential sampling strategy to improve the global fidelity of metamodels in multi-level system design
verfasst von: Yu Liu
Yi Shi
Qiang Zhou
Renqiang Xiu
Publikationsdatum: 30.01.2016
Verlag: Springer Berlin Heidelberg
Erschienen in: Structural and Multidisciplinary Optimization / Ausgabe 6/2016
Print ISSN: 1615-147X
Elektronische ISSN: 1615-1488
DOI: https://doi.org/10.1007/s00158-015-1379-9

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