Aerospace applications of optimization under uncertainity

Author

Padula, Sharon ; Gumbert, Clyde ; Li, Wu

Author_Institution

NASA Langley Res. Center, Hampton, VA

fYear

2003

fDate

24-24 Sept. 2003

Firstpage

286

Lastpage

291

Abstract

The multidisciplinary optimization (MDO) branch at NASA Langley Research Center develops new methods and investigates opportunities for applying optimization to aerospace vehicle design. We describe MDO branch experiences with three applications of optimization under uncertainty: (1) improved impact dynamics for airframes, (2) transonic airfoil optimization for low drag, and (3) coupled aerodynamic/structures optimization of a 3-D wing. For each case, a brief overview of the problem and references to previous publications are provided. The three cases are aerospace examples of the challenges and opportunities presented by optimization under uncertainty. We illustrate a variety of needs for this technology, summarize promising methods, and uncover fruitful areas for new research

Keywords

aerodynamics; aerospace computing; finite element analysis; optimisation; uncertainty handling; NASA Langley Research Center; aerodynamic structure optimization; aerospace vehicle design; aircraft impact dynamics; airframe finite element model; multidisciplinary optimization; transonic airfoil optimization; uncertainity quantification; Acceleration; Aerodynamics; Aircraft; Automotive components; Design optimization; NASA; Paper technology; Particle beams; Uncertainty; Vehicle dynamics;

fLanguage

English

Publisher

ieee

Conference_Titel

Uncertainty Modeling and Analysis, 2003. ISUMA 2003. Fourth International Symposium on

Conference_Location

College Park, MD

Print_ISBN

0-7695-1997-0

Type

conf

DOI

10.1109/ISUMA.2003.1236175

Filename

1236175