Shape tracking of extended objects and group targets with star-convex RHMs

Author

Baum, Marcus ; Hanebeck, Uwe D.

Author_Institution

Intell. Sensor-Actuator-Syst. Lab. (ISAS), Inst. for Anthropomatics, Karlsruhe, Germany

fYear

2011

fDate

5-8 July 2011

Firstpage

1

Lastpage

8

Abstract

This paper is about tracking an extended object or a group target, which gives rise to a varying number of measurements from different measurement sources. For this purpose, the shape of the target is tracked in addition to its kinematics. The target extent is modeled with a new approach called Random Hypersurface Model (RHM) that assumes varying measurement sources to lie on scaled versions of the shape boundaries. In this paper, a star-convex RHM is introduced for tracking star-convex shape approximations of targets. Bayesian inference for star-convex RHMs is performed by means of a Gaussian-assumed state estimator allowing for an efficient recursive closed-form measurement update. Simulations demonstrate the performance of this approach for typical extended object and group tracking scenarios.

Keywords

Bayes methods; object tracking; random processes; state estimation; target tracking; Bayesian inference; Gaussian-assumed state estimator; extended objects; group targets; kinematics; recursive closed-form measurement update; shape boundaries; shape tracking; star-convex random hypersurface model; Bayesian methods; Mathematical model; Noise measurement; Radar tracking; Shape; Shape measurement; Target tracking; Target tracking; extended objects; group targets; shape tracking;

fLanguage

English

Publisher

ieee

Conference_Titel

Information Fusion (FUSION), 2011 Proceedings of the 14th International Conference on

Conference_Location

Chicago, IL

Print_ISBN

978-1-4577-0267-9

Type

conf

Filename

5977661