Detection and tracking of ballistic target

Author

Farina, A. ; Del Gaudio, M.G. ; Elia, U.D. ; Immediata, S. ; Ortenzi, L. ; Timmoneri, L. ; Toma, M.R.

Author_Institution

AMS, Rome, Italy

fYear

2004

fDate

26-29 April 2004

Firstpage

450

Lastpage

456

Abstract

Some aspects of detection and tracking of ballistic targets are analysed in this paper. In particular, the RCS model versus aspect angle is obtained for a notional target starting from its CAD model. Subsequently, the kinematic model of the ballistic target is derived; it includes the main forces acting on it, namely, the thrust, the drag and the gravity. On the basis of these two models it is possible to determine the detection probability of a notional L-band radar during the target flight and to build up an interactive multiple model (IMM) for target tracking. The performance evaluation of the design IMM tracking algorithm is obtained via Monte Carlo simulation. In particular, highly manoeuvring aircraft and ballistic targets in the boost phase are used to check the capability of the IMM.

Keywords

CAD; Monte Carlo methods; ballistics; drag; gravity; military radar; probability; radar computing; radar cross-sections; radar detection; radar tracking; target tracking; CAD model; L-band radar; Monte Carlo simulation; RCS model; aspect angle; ballistic target detection; ballistic target tracking; boost phase; detection probability; drag; gravity; highly manoeuvring aircraft; interactive multiple model; kinematic model; performance evaluation; radar detection; thrust; Computer vision; Frequency; Gravity; Kinematics; L-band; Missiles; Radar cross section; Radar detection; Radar tracking; Target tracking;

fLanguage

English

Publisher

ieee

Conference_Titel

Radar Conference, 2004. Proceedings of the IEEE

Print_ISBN

0-7803-8234-X

Type

conf

DOI

10.1109/NRC.2004.1316467

Filename

1316467