Multitarget miss distance and its applications

Author

Hoffman, John R. ; Mahler, Ronald P S

Author_Institution

Lockheed Martin Tactical Syst., Eagan, MN, USA

Volume

1

fYear

2002

fDate

8-11 July 2002

Firstpage

149

Abstract

The concept of miss distance-Euclidean, Mahalanobis, etc.-is a fundamental, far-reaching, and taken-for-granted element of the engineering theory and practice of single-sensor, single-target systems. One might expect that multisensor, multitarget information fusion theory and applications would already rest upon a similarly fundamental concept-namely, miss distance between multi-object systems (i.e., systems in which not only individual objects can vary, but their number as well). However, this has not been the case. Consequently, in this paper we introduce a comprehensive theory of distance metrics for multitarget (and, more generally, multi-object) systems. We show that this theory extends an optimal-assignment approach proposed by O. Drummond. We describe tractable computational approaches for computing such metrics, as well as some potentially far-reaching implications for applications such as sensor management.

Keywords

optimisation; sensor fusion; set theory; statistical analysis; target tracking; Mallows distance; Wasserstein distance; distance metrics; multi-object systems; multisensor multitarget information fusion theory; multitarget miss distance; optimal-assignment approach; random sets; sensor management; tractable computational approaches; Collaboration; Engineering management; Optimal control; Position measurement; Sensor phenomena and characterization; Sensor systems; Systems engineering and theory; Target tracking;

fLanguage

English

Publisher

ieee

Conference_Titel

Information Fusion, 2002. Proceedings of the Fifth International Conference on

Conference_Location

Annapolis, MD, USA

Print_ISBN

0-9721844-1-4

Type

conf

DOI

10.1109/ICIF.2002.1021144

Filename

1021144