Suborbital Spaceplane Optimization using Non-stationary Gaussian Processes

机译：使用非平稳高斯过程的亚轨道航天飞机优化

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This paper presents mullidisciplinary design optimization of a sub-orbital spaceplane. The optimization includes three disciplines: the aerodynamics, the structure and the trajectory. An Adjoint Euler code is used to calculate the aerodynamic lift and drag of the vehicle as well as their derivatives with respect to the design variables. A new surrogate model has been developed based on a non-stationary Gaussian process. That model was used to estimate the aerodynamic characteristics of the vehicle during the trajectory optimization. The trajectory of thevehicle has been optimized together with its geometry in order to maximize the amount of payload that can be carried by the spaceplane.

机译：本文提出了亚轨道空间飞机的多学科设计优化。优化包括三个方面：空气动力学，结构和轨迹。伴随欧拉代码用于计算车辆的空气动力学升力和阻力，以及它们相对于设计变量的导数。基于非平稳的高斯过程，已经开发了一种新的替代模型。该模型用于估计轨迹优化过程中车辆的空气动力学特性。车辆的轨迹及其几何形状已进行了优化，以使空间飞机可以携带的有效负载量最大化。

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来源
《International conference on computational methods in science and engineering 2014》|2014年|384-389|共6页
会议地点 Athens(GR)
作者
Robin Dufour; Julien de Muelenaere; Ali Elham;
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作者单位

Delft University of Technology;

Stanford University;

Delft University of Technology;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Optimization; Surrogate modelling;

机译：优化;替代模型;

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专利

1. Trajectory driven multidisciplinary design optimization of a sub-orbital spaceplane using non-stationary Gaussian process [J] . Robin Dufour, Julien Muelenaere, Ali Elham Structural and Multidisciplinary Optimization . 2015,第4期

机译：使用非平稳高斯过程的亚轨道航天飞机的轨迹驱动多学科设计优化
2. Trajectory driven multidisciplinary design optimization of a sub-orbital spaceplane using non-stationary Gaussian process [J] . Dufour Robin, de Muelenaere Julien, Elham Ali Structural and multidisciplinary optimization . 2015,第4期

机译：使用非平稳高斯过程的亚轨道航天飞机的轨迹驱动多学科设计优化
3. Multiobjective trajectory optimization for a suborbital spaceplane using Directed Search Domain approach [J] . Wang Kaiqiang, Zhang Bainan Aerospace science and technology . 2018,第juna期

机译：使用定向搜索域方法的亚轨道空间平面多目标轨迹优化
4. Suborbital Spaceplane Optimization using Non-stationary Gaussian Processes [C] . Robin Dufour, Julien de Muelenaere, Ali Elham International conference on computational methods in science and engineering . 2014

机译：使用非静止高斯流程的副血管总飞行平板优化
5. Simulation of Non-Gaussian/Non-stationary Stochastic Processes: Beyond Second-order Orthogonality [D] . Kim, Hwanpyo. 2018

机译：非高斯/非静止随机流程的仿真：超出二阶正交性
6. Dynamics of non-stationary processes that follow the maximum of the Rényi entropy principle [O] . Dmitry S. Shalymov, Alexander L. Fradkov -1

机译：遵循Rényi熵原理最大值的非平稳过程的动力学
7. Trajectory driven multidisciplinary design optimization of a sub-orbital spaceplane using non-stationary Gaussian process [O] . Robin Dufour, Julien de Muelenaere, Ali Elham 2015

机译：使用非平稳高斯过程的亚轨道航天飞机的轨迹驱动多学科设计优化
8. Novel Method for Generating Non-Stationary Gaussian Processes for Use in Digital Radar Simulators [R] . Boehm, J. A. , Debroux, P. S. 2007

机译：用于生成数字雷达模拟器中非平稳高斯过程的新方法

Suborbital Spaceplane Optimization using Non-stationary Gaussian Processes

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