In multidisciplinary optimization problems, response surface techniques can be used to replace the complex analyses that define the objective function and/or constraints with simple functions, typically polynomials. In this work a response surface is applied to the design optimization of a helicopter rotor blade. In previous work, this problem has been formulated with a multilevel approach. Here, the response surface takes advantage of this decomposition and is used to replace the lower level, a structural optimization of the blade. Problems that were encountered and important considerations in applying the response surface are discussed. Preliminary results are also presented that illustrate the benefits of using the response surface
The purpose of the research is to study the integration of structural, dynamic, and aerodynamic cons...
Described is a joint NASA/Army initiative at the Langley Research Center to develop optimization pro...
The problem of structural optimization of helicopter rotor blades with integrated dynamic and aerody...
Described is a formal optimization procedure for helicopter rotor blade design which minimizes hover...
This paper describes an integrated aerodynamic, dynamic, and structural (IADS) optimization procedur...
This paper describes a joint activity involving NASA and Army researchers at the NASA Langley Resear...
AbstractThe paper addresses the integration of blade dynamics, aerodynamics, structures and aeroelas...
. This paper presents results for a 31 variable helicopter rotor design example. Results are given f...
. This paper presents results for a 31 variable helicopter rotor design example. Results are given f...
This paper describes a joint NASA/Army initiative at the Langley Research Center to develop optimiza...
This paper presents a survey of applications of design optimization to helicopter problems carried o...
This paper describes an integrated aerodynamic /dynamic/structural (IADS) optimization procedure for...
A joint activity involving NASA and Army researchers at NASA LaRC to develop optimization procedures...
Summarized here is the first six years of research into the integration of structural, dynamic, and ...
A survey of applications of mathematical programming methods is used to improve the design of helico...
The purpose of the research is to study the integration of structural, dynamic, and aerodynamic cons...
Described is a joint NASA/Army initiative at the Langley Research Center to develop optimization pro...
The problem of structural optimization of helicopter rotor blades with integrated dynamic and aerody...
Described is a formal optimization procedure for helicopter rotor blade design which minimizes hover...
This paper describes an integrated aerodynamic, dynamic, and structural (IADS) optimization procedur...
This paper describes a joint activity involving NASA and Army researchers at the NASA Langley Resear...
AbstractThe paper addresses the integration of blade dynamics, aerodynamics, structures and aeroelas...
. This paper presents results for a 31 variable helicopter rotor design example. Results are given f...
. This paper presents results for a 31 variable helicopter rotor design example. Results are given f...
This paper describes a joint NASA/Army initiative at the Langley Research Center to develop optimiza...
This paper presents a survey of applications of design optimization to helicopter problems carried o...
This paper describes an integrated aerodynamic /dynamic/structural (IADS) optimization procedure for...
A joint activity involving NASA and Army researchers at NASA LaRC to develop optimization procedures...
Summarized here is the first six years of research into the integration of structural, dynamic, and ...
A survey of applications of mathematical programming methods is used to improve the design of helico...
The purpose of the research is to study the integration of structural, dynamic, and aerodynamic cons...
Described is a joint NASA/Army initiative at the Langley Research Center to develop optimization pro...
The problem of structural optimization of helicopter rotor blades with integrated dynamic and aerody...