APPLICATION OF GLOBAL SENSITIVITY EQUATIONS IN MULTIDISCIPLINARY AIRCRAFT SYNTHESIS

被引：40

作者：

HAJELA, P

BLOEBAUM, CL

SOBIESZCZANSKISOBIESKI, J

机构：

[1] University of Florida, Gainesville, FL

[2] NASA Langley Research Center, Hampton, VA

来源：

JOURNAL OF AIRCRAFT | 1990年 / 27卷 / 12期

关键词：

D O I：

10.2514/3.45974

中图分类号：

V [航空、航天];

学科分类号：

08 ; 0825 ;

摘要：

The present paper investigates the applicability of the Global Sensitivity Equation (GSE) method in the multidisciplinary synthesis of aeronautical vehicles. The GSE method provides an efficient approach for representing a large coupled system by smaller subsystems and accounts for the subsystem interactions by means of first-order behavior sensitivities. This approach was applied in an aircraft synthesis problem with performance constraints stemming from the disciplines of structures, aerodynamics, and flight mechanics. Approximation methods were considered in an attempt to reduce problem dimensionality and to improve the efficiency of the optimization process. The influence of efficient constraint representations, the choice of design variables, and design variable scaling on the conditioning of the system matrix was also investigated.

引用

页码：1002 / 1010

页数：9

共 10 条

[1]

Sensburg O., Fullhas K., Schimdinger G., Interdisciplinary Design of Aircraft Structures for Minimum Weight, AIAA Paper, pp. 88-2302, (1988)

[2]

Abdi F., Ide H., Levine M., Austel L., The Art of Spacecraft Design: A Multidisciplinary Challenge, 2Nd NASA/Air Force Symposium on Recent Advances in Multidisciplinary Analysis and Optimization, (1988)

[3]

Sobieszczanski-Sobieski J., On the Sensitivity of Complex, Internally Coupled Systems, AIAA Journal, 28, 1, (1990)

[4]

Sobieszczanski-Sobieski J., Bloebaum C.L., Hajela P., Sensitivity of Control-Augmented Structure Obtained by a System Decomposition Method, AIAA Paper 88-2205, (1988)

[5]

Hajela P., Techniques in Optimum Structural Synthesis with Static and Dynamic Constraints, Ph.D. Dissertation, (1982)

[6]

Whetstone W.D., SPAR Structural Analysis System Reference Manual—System Level 13A, 1, (1978)

[7]

Peele E.L., Adams W.M., A Digital Program for Calculating the Interaction between Flexible Structures, Unsteady Aerodynamics and Active Controls, NASA TM-80040, (1979)

[8]

Perkins C.D., Hage R.E., Airplane Performance: Stability and Control, (1949)

[9]

Armstrong E.S., ORACLS—A System for Linear Quadratic Gaussian Control Law Design, NASA TP-1106, (1978)

[10]

Smetana F.O., Computer Assisted Analysis of Aircraft Performance Stability and Control, (1984)

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