High-Fidelity Computational Optimization for 3-D Flexible Wings: Part Ⅱ—Effect of Random Geometric Uncertainty on Design

CLYDE R. GUMBERT; PERRY A. NEWMAN; GENE J.-W. HOU

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High-Fidelity Computational Optimization for 3-D Flexible Wings: Part Ⅱ—Effect of Random Geometric Uncertainty on Design

机译：3-D柔性机翼的高保真计算优化：第二部分-随机几何不确定性对设计的影响

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摘要

The effect of geometric uncertainty due to statistically independent, random, normally distributed shape parameters is demonstrated in the computational design of a 3-D flexible wing. A first-order second-moment statistical approximation method is used to propagate the assumed input uncertainty through coupled Euler CFD aerodynamic/finite element structural codes for both analysis and sensitivity analysis. First-order sensitivity derivatives obtained by automatic differentiation are used in the input uncertainty propagation. These propagated uncertainties are then used to perform a robust design of a simple 3-D flexible wing at supercritical flow conditions. The effect of the random input uncertainties is shown by comparison with conventional deterministic design results. Sample results are shown for wing planform, airfoil section, and structural sizing variables.

机译：3-D柔性机翼的计算设计证明了由于统计独立，随机，正态分布的形状参数而导致的几何不确定性的影响。一阶二阶矩统计逼近方法用于通过耦合的Euler CFD气动/有限元结构代码传播假定的输入不确定性，以进行分析和灵敏度分析。通过自动微分获得的一阶灵敏度导数用于输入不确定性传播。然后，这些传播的不确定性将用于在超临界流动条件下对简单的3-D柔性机翼进行稳健的设计。通过与常规确定性设计结果进行比较，可以显示随机输入不确定性的影响。显示了机翼平面形状，机翼截面和结构尺寸变量的样本结果。

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来源
《Optimization and Engineering》 |2005年第1期|p.139-156|共18页
作者
CLYDE R. GUMBERT; PERRY A. NEWMAN; GENE J.-W. HOU;
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作者单位

NASA Langley Research Center, Hampton, VA 23681;

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原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
robust design; multidisciplinary; uncertainty;

机译：稳健设计;多学科;不确定性;

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专利

1. High-Fidelity Computational Optimization for 3-D Flexible Wings: Part Ⅰ—Simultaneous Aero-Structural Design Optimization (SASDO) [J] . CLYDE R. GUMBERT, GENE J.-W. HOU, PERRY A. NEWMAN Optimization and Engineering . 2005,第1期

机译：3-D柔性机翼的高保真计算优化：第一部分：同时进行的航空结构设计优化（SASDO）
2. Robust Design Optimization of Flexible Backswept Wings with Structural Uncertainties [J] . Zhiqiang Wan, Zhipeng Xiao, Chao Yang Journal of Aircraft . 2011,第5期

机译：具有结构不确定性的柔性后掠机翼的鲁棒设计优化
3. High-fidelity aeroelastic computations of a flapping wing with spanwise flexibility [J] . Raymond E. Gordnier, Satish Kumar Chimakurthi, Carlos E. S. Cesnik, Journal of Fluids and Structures . 2013,第Null期

机译：具有翼展方向灵活性的襟翼的高保真气动弹性计算
4. Effect of Random Geometric Uncertainty on the Computational Design of a 3D Flexible Wing [C] . C. Gumbert, P. Newman, G. Hou AIAA Fluid Dynamics Conference and Exhibit . 2002

机译：随机几何不确定性对3D柔性机翼计算设计的影响
5. High-fidelity multidisciplinary design optimization of flexible aircraft wings [D] . Leonard, Brian T. 2006

机译：飞机机翼的高保真多学科设计优化
6. Batch fabrication process of biomimetic wing with high flexibility of stiffness design for flapping-wing micro aerial vehicles [O] . Takashi Ozaki, Kanae Hamaguchi 2020

机译：跨翼微型空中航空车辆刚度设计的批量生料坯纺厂制造工艺
7. Effect of Random Geometric Uncertainty on the Computational Design of a 3-D Flexible Wing [O] . Hou, G. J.-W., Newman, P. A., Gumbert, C. R. 2002

机译：随机几何不确定性对3-D柔性机翼计算设计的影响
8. Effect of Random Geometric Uncertainty on the Computational Design of a 3-D Flexible Wing [R] . Gumbert, C. R. , Newman, P. A. , Hou, G. J. W. 2002

机译：随机几何不确定性对三维柔性机翼计算设计的影响

High-Fidelity Computational Optimization for 3-D Flexible Wings: Part Ⅱ—Effect of Random Geometric Uncertainty on Design

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