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An improved multidisciplinary feasible method using DACE approximation approach
引用本文:Su Zijian,Xiao Renbin & Zhong YifangCAD Center,School of Mechanical Engineering and Science,Huazhong University of Science & Technology,Wuhan 430074,P. R. China(Received January 5,2004). An improved multidisciplinary feasible method using DACE approximation approach[J]. 系统工程与电子技术(英文版), 2005, 16(2)
作者姓名:Su Zijian  Xiao Renbin & Zhong YifangCAD Center  School of Mechanical Engineering and Science  Huazhong University of Science & Technology  Wuhan 430074  P. R. China(Received January 5  2004)
作者单位:Received January 5,2004
摘    要:1.INTRODUCTION Themultidisciplinarydesignoptimization(MDO)is anapproachwhichimprovesandspeedsupthedesign process,andlowersthedesigncostofcomplexand coupledengineeringsystems[1,2],Themainfactor thatresultsinthecomplexityofMDOistheinterdis ciplinarycoupling.Thegeneralstrategytohandlethe couplingisdecompositionofthecomplexsysteminto sub systems,eachpertainingtothephysicalphe nomenonorcomponent,andtop systemwhichpre servesthecouplingsbetweenthesub systems.How ever,algorithmsbasedondecomposi…


An improved multidisciplinary feasible method using DACE approximation approach
Su Zijian,Xiao Renbin,Zhong Yifang. An improved multidisciplinary feasible method using DACE approximation approach[J]. Journal of Systems Engineering and Electronics, 2005, 16(2)
Authors:Su Zijian  Xiao Renbin  Zhong Yifang
Affiliation:CAD Center, School of Mechanical Engineering and Science, Huazhong University of Science & Technology, Wuhan 430074, P. R. China
Abstract:Multidisciplinary feasible method (MDF) is conventional method to multidisciplinary optimization (MDO) and well-understood by users. It reduces the dimensions of the multidisciplinary optimization problem by using the design variables as independent optimization variables. However, at each iteration of the conventional optimization procedure, multidisciplinary analysis (MDA) is numerously performed that results in extreme expense and low optimization efficiency. The intrinsic weakness of MDF is due to the times that it loop fixed-point iterations in MDA, which drive us to improve MDF by building inexpensive approximations as surrogates for expensive MDA. An simple example is presented to demonstrate the usefulness of the improved MDF. Results show that a significant reduction in the number of multidisciplinary analysis required for optimization is obtained as compared with original MDF and the efficiency of optimization is increased.
Keywords:multidisciplinary optimization   approximation   multidisciplinary feasible method (MDF).
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