论文信息 - Probabilistic analytical target cascading combined with Kriging metamodel for multidisciplinary robust design optimization

Probabilistic analytical target cascading combined with Kriging metamodel for multidisciplinary robust design optimization

Robust design under a multidisciplinary environment is a challenging problem in modern quality engineering because of the organizational and computational burden. In this paper, a probabilistic analytical target cascading (PATC) methodology combined with Kriging metamodel (PATC-KRG) is proposed for robust design of engineering systems considering both objective robustness and feasibility robustness. PATC is an effective methodology for hierarchical multilevel optimization under uncertainty. However, when mathematical models are complex and highly nonlinear, especially when simulations are used, multidisciplinary robust design optimization (MRDO) will be highly computationally expensive. To obtain better computational efficiency, in the PATC-KRG method, Kriging metamodels are used to replace the complicated models, and an exponential penalty function (EPF) formulation is employed for target-response coordination in PATC. A geometric programming problem is used to demonstrate the feasibility and computational efficiency of the PATC-KRG method. Results indicate that the PATC-KRG method can achieve a higher efficiency in support of MRDO.

[1] Yijun Wang,et al. Methods for Robust Multidisciplinary Design , 2000 .

[2] Wei Chen,et al. Concurrent subsystem uncertainty analysis in multidisciplinary design , 2000 .

[3] Bernhard Sendhoff,et al. Robust Optimization - A Comprehensive Survey , 2007 .

[4] Xiao Renbin,et al. A response surface based hierarchical approach to multidisciplinary robust optimization design , 2005 .

[5] Wei Chen,et al. Towards a Better Understanding of Modeling Feasibility Robustness in Engineering Design , 2000 .

[6] Søren Nymand Lophaven,et al. Aspects of the Matlab toolbox DACE , 2002 .

[7] M. Rais-Rohani,et al. Exponential penalty function formulation for multilevel optimization using the analytical target cascading framework , 2013 .

[8] Baoyan Duan,et al. Uncertainty Analysis for Multidisciplinary Systems Based on Convex Models , 2004 .

[9] M. Kokkolaras,et al. Probabilistic Analytical Target Cascading: A Moment Matching Formulation for Multilevel Optimization Under Uncertainty , 2006, DAC 2005.

[10] Wei Chen,et al. Probabilistic Analytical Target Cascading: A Moment Matching Formulation for Multilevel Optimization Under Uncertainty , 2006 .

[11] Timothy W. Simpson,et al. Multidisciplinary Robust Design Optimization of an Internal Combustion Engine , 2003 .

[12] Xiaoqian Chen,et al. Sequential probabilistic analytical target cascading method for hierarchical multilevel optimization under uncertainty , 2014 .