Multi-objective Optimization of Cantilever Box Girder Based on Explosive Impact Simulation

Author

Yan Chen ; Wan-Ling Li ; Wen-yu Zhang

Author_Institution

Ordnance Tech. Res. Inst., Shijiazhuang, China

fYear

2013

fDate

21-23 July 2013

Firstpage

176

Lastpage

179

Abstract

The performances of light-weight and the anti-damage are a pair of conflicting optimization goals. Basing on the damage data of explosion simulation, it studies multi-objective optimization of cantilever box girder about lightweight and anti-damage. Firstly, the method of PCA is introduced to mine the damage data of simulation experiments. Secondly - the regression function about the damage of cantilever box girder is established. Finally, a multi-objective optimization problem is put forward and a calculating example is solved. The introduction of PCA for damage data mining makes a convenient combination point for two different research domains (the battle damage simulation and the structure optimization of equipment).

Keywords

beams (structures); cantilevers; data mining; explosions; explosives; lightweight structures; optimisation; principal component analysis; regression analysis; supports; PCA method; anti-damage; battle damage simulation; cantilever box girder damage; conflicting optimization goals; damage data mining; explosion simulation; explosive impact simulation; light-weight performances; multiobjective optimization problem; research domains; Data mining; Data models; Explosives; Optimization; Principal component analysis; Structural beams; Weapons; cantilever box girder; damage; data mining; optimization;

fLanguage

English

Publisher

ieee

Conference_Titel

Mechanical and Automation Engineering (MAEE), 2013 International Conference on

Conference_Location

Jiujang

Type

conf

DOI

10.1109/MAEE.2013.52

Filename

6602165