Augmented proportional navigation guidance using subspace-stabilization

Author

Tournes, C. ; Johnson, C.D.

Author_Institution

Davidson Technol. Inc., Huntsville, AL, USA

fYear

2002

fDate

2002

Firstpage

471

Lastpage

475

Abstract

The paper is concerned with the application of subspace-stabilization control theory to the missile guidance problem. In particular, the system error-state vector is stabilized to a certain subspace of the error state-space such that zero predicted miss-distance is achieved. The proposed control technique is related to the classical proportional navigation and augmented proportional navigation guidance laws, and accommodates in real-time uncertain effects in the plant model, as well as uncertain target motion with respect to the chosen line-of-sight/collision-line. Numerical simulation results are presented to illustrate the validity of proposed design. The guidance concept is extended, similar to optimum proportional navigation, to take into account the missile´s response-time, and to reduce the required maneuver advantage.

Keywords

control system synthesis; matrix algebra; missile guidance; proportional control; stability; augmented proportional navigation guidance; collision-line; error state-space; error-state vector; fine-of-sight; missile guidance problem; real-time uncertain effects; response-time; subspace-stabilization; uncertain target motion; zero predicted miss-distance; Acceleration; Control theory; Geometry; Missiles; Motion control; Navigation; Numerical simulation; Proportional control; Transfer functions; Virtual colonoscopy;

fLanguage

English

Publisher

ieee

Conference_Titel

System Theory, 2002. Proceedings of the Thirty-Fourth Southeastern Symposium on

ISSN

0094-2898

Print_ISBN

0-7803-7339-1

Type

conf

DOI

10.1109/SSST.2002.1027091

Filename

1027091