Gradient-enhanced kriging: Difference between revisions
Content deleted Content added
| Line 14: | Line 14: | ||
[[File:GEK airfoil reference.png|thumb|400px|Reference results for the drag coefficient of a transonic airfoil, based on a large number of CFD simulations. The horizontal and vertical axis show the deformation of the shape of the airfoil.]] |
[[File:GEK airfoil reference.png|thumb|400px|Reference results for the drag coefficient of a transonic airfoil, based on a large number of CFD simulations. The horizontal and vertical axis show the deformation of the shape of the airfoil.]] |
||
[[File:GEK airfoil Kriging.png|thumb|Kriging surrogate model of the drag coefficient of a transonic airfoil.]] |
[[File:GEK airfoil Kriging.png|thumb|400px|Kriging surrogate model of the drag coefficient of a transonic airfoil.]] |
||
== References == |
== References == |
||
Revision as of 03:24, 8 November 2016
Template:New unreviewed article Gradient-Enhanced Kriging (GEK) is a surrogate modeling technique used in engineering. A surrogate model (alternatively known as a metamodel, response surface or emulator) is a prediction of the output of an expensive computer code. This prediction is based on a small number of evaluations of the expensive computer code.
Introduction
Predictor equations
Kriging
GEK
Example: Drag coefficient of a transonic airfoil
