RCS analysis of hypersonic cruise vehicle

Jing Che; Shuo Tang

RCS analysis of hypersonic cruise vehicle

Jing Che, Shuo Tang

School of Astronautics

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

In order to improve the engineering method of Radar Cross Section (RCS) of Hypersonic Cruise Vehicle (HCV), high frequency scattering theories, including geometrical optics (GO), physical optics (PO) and method of equivalent currents (MEC), are used. By these methods, RCS of various scattering centers of HCV is computed. Combined with the engineering RCS formula of ideal dihedral corner reflector, the concept of equivalent illustration area (EIA) is presented, which is applied to compute the RCS of wing and fuselage joints. To compute RCS of whole HCV, the shadowing relationship of facet analyzed by the method of backward surface identification and depth-buffer is considered. The computed result is good fit for the result of MOM and can satisfy the need of engineering analysis and multi-objective optimization of aircrafts.

Original language	English
Pages (from-to)	227-232
Number of pages	6
Journal	Yuhang Xuebao/Journal of Astronautics
Volume	28
Issue number	1
State	Published - Jan 2007

Keywords

Dihedral corner reflector
Equivalent illustration area
Hypersonic cruise vehicle
RCS
Shadowing

Cite this

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abstract = "In order to improve the engineering method of Radar Cross Section (RCS) of Hypersonic Cruise Vehicle (HCV), high frequency scattering theories, including geometrical optics (GO), physical optics (PO) and method of equivalent currents (MEC), are used. By these methods, RCS of various scattering centers of HCV is computed. Combined with the engineering RCS formula of ideal dihedral corner reflector, the concept of equivalent illustration area (EIA) is presented, which is applied to compute the RCS of wing and fuselage joints. To compute RCS of whole HCV, the shadowing relationship of facet analyzed by the method of backward surface identification and depth-buffer is considered. The computed result is good fit for the result of MOM and can satisfy the need of engineering analysis and multi-objective optimization of aircrafts.",

keywords = "Dihedral corner reflector, Equivalent illustration area, Hypersonic cruise vehicle, RCS, Shadowing",

author = "Jing Che and Shuo Tang",

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N2 - In order to improve the engineering method of Radar Cross Section (RCS) of Hypersonic Cruise Vehicle (HCV), high frequency scattering theories, including geometrical optics (GO), physical optics (PO) and method of equivalent currents (MEC), are used. By these methods, RCS of various scattering centers of HCV is computed. Combined with the engineering RCS formula of ideal dihedral corner reflector, the concept of equivalent illustration area (EIA) is presented, which is applied to compute the RCS of wing and fuselage joints. To compute RCS of whole HCV, the shadowing relationship of facet analyzed by the method of backward surface identification and depth-buffer is considered. The computed result is good fit for the result of MOM and can satisfy the need of engineering analysis and multi-objective optimization of aircrafts.

AB - In order to improve the engineering method of Radar Cross Section (RCS) of Hypersonic Cruise Vehicle (HCV), high frequency scattering theories, including geometrical optics (GO), physical optics (PO) and method of equivalent currents (MEC), are used. By these methods, RCS of various scattering centers of HCV is computed. Combined with the engineering RCS formula of ideal dihedral corner reflector, the concept of equivalent illustration area (EIA) is presented, which is applied to compute the RCS of wing and fuselage joints. To compute RCS of whole HCV, the shadowing relationship of facet analyzed by the method of backward surface identification and depth-buffer is considered. The computed result is good fit for the result of MOM and can satisfy the need of engineering analysis and multi-objective optimization of aircrafts.

KW - Dihedral corner reflector

KW - Equivalent illustration area

KW - Hypersonic cruise vehicle

KW - RCS

KW - Shadowing

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JO - Yuhang Xuebao/Journal of Astronautics

JF - Yuhang Xuebao/Journal of Astronautics

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RCS analysis of hypersonic cruise vehicle

Abstract

Keywords

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