Paper Info
Title
Research on multi-objective optimization design of the UUV shape based on numerical simulation
Abstract
The numerical simulation research of the Underwater Unmanned Vehicle (UUV) shell shape is carried out by applying the modern fluid dynamics numerical simulation technology In the numerical simulation process, while focusing on the characteristics of the UUV shape, this treatise work properly with its computational model, computational domain, computational grid and boundary conditions Based on numerical simulation techniques, the UUV shape is multi-objectively optimized by integrated fluid dynamics simulation software-fluent on iSIGHT optimization design platform Multi-island genetic algorithm is adopted as the optimization algorithm, and Reynolds-averaged Navier-Stokes equation and turbulence model are as well applied in the optimization design process The results show that by reducing the drag coefficient and the flow noise of the UUV shape, the optimized design has made a significant improvement in its comprehensive performance, which provides a new way for today's optimization design of UUV shape.
Year
DOI
Venue
2010
10.1007/978-3-642-13495-1_77
ICSI (1)
Keywords
Field
DocType
multi-objective optimization design,shell shape,optimization algorithm,isight optimization design platform,simulation software-fluent,numerical simulation technique,numerical simulation research,uuv shape,numerical simulation technology,numerical simulation process,optimization design,genetic algorithm,numerical simulation,optimal design,multi objective optimization,fluid dynamics,simulation software,computer model,boundary condition,drag coefficient
Mathematical optimization,iSight,Computer simulation,Computer science,Multi-objective optimization,Fluid dynamics,Design process,Genetic algorithm,Grid,Drag coefficient
Conference
Volume
ISSN
ISBN
6145
0302-9743
3-642-13494-7
Citations 
PageRank 
References 
1
0.36
1
Authors
3
Name
Order
Citations
PageRank
Song Bao-wei1165.95
Qi-Feng Zhu234034.69
Zhanyi Liu3656.35