Parameterization adaption for 3D shape optimization in aerodynamics

Parameterization adaption for 3D shape optimization in aerodynamics

When solving a PDE problem numerically, a certain mesh-refinement process is always implicit, and very classically, mesh adaptivity is a very effective means to accelerate grid convergence. Similarly, when optimizing a shape by means of an explicit geometrical representation, it is natural to seek f...

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Veröffentlicht in:International journal of science and engineering (edisi elektronik) 2014, Vol.6 (1), p.61-69
1. Verfasser: El Majd, Badr Abou
Format: Artikel
Sprache:eng
Schlagworte:
compressible aerodynamics
Free-Form Deformation
Mathematics
Numerical Analysis
Numerical shape optimization
Optimization and Control
self-adaptive algorithm
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Zusammenfassung:When solving a PDE problem numerically, a certain mesh-refinement process is always implicit, and very classically, mesh adaptivity is a very effective means to accelerate grid convergence. Similarly, when optimizing a shape by means of an explicit geometrical representation, it is natural to seek for an analogous concept of parameterization adaptivity. We propose here an adaptive parameterization for three-dimensional optimum design in aerodynamics by using the so-called " Free-Form Deformation " approach based on 3D tensorial Bézier parameterization. The proposed procedure leads to efficient numerical simulations with highly reduced computational costs.
ISSN:2086-5023
2302-5743
2302-5743
DOI:10.12777/ijse.6.1.61-69