摘要
由于结构布局优化存在设计变量类型众多和变量耦合等问题,采取合适的优化方法获得满足结构设计要求的最小质量的结构具有重要的工程意义.基于多学科设计优化方法中的并行子空间优化法,提出一种桁架结构布局优化的并行子空间优化方法.将结构布局设计问题按设计变量类型分为布局、形状和尺寸三个并行的子空间,设计变量在各自的子空间内单独优化,各子空间优化结束后,在系统级中协调3类设计变量,保持最小质量的子空间的优化设计变量不变,采用近似一维搜索的方法协调其他子空间的设计变量,然后进行下一次迭代直至收敛.2个算例表明该方法能够取得较好的优化结果,具有实际工程应用价值.
Structural layout design exists some problems, such as complexity of variable types and existence of variables coupling. It is of important engineering significance to design the lightest structure, which meets the specific constraints. Based on the concurrent subspace optimization method in multidisciplinary design optimization, a structural concurrent subspace optimization method was developed for the layout design of trusses. In terms of the type of variables, the design problem of structures was decomposed into three concurrent subspaces as layout, shape and size. And the optimization in each subspace was carried out separately to avoid the coupling of design variables. By remaining the design variables in the lightest subspace unchanged and altering two other types of variables with approximate one-dimensional search algorithm, the coordination was achieved in system level to ensure the convergence of the analysis problem. Thennext iterate was executed until termination. Two examples were solved successfully to demonstrate practical engineering value of the proposed method.
出处
《工程设计学报》
CSCD
北大核心
2015年第3期256-261,268,共7页
Chinese Journal of Engineering Design
关键词
桁架
并行子空间优化方法
布局优化
形状优化
尺寸优化
trusses
concurrent subspace optimization method
layout optimization
shape optimization
sizing optimization
