Labeled Random Finite Sets and Multi-Object Conjugate Priors

Author

Ba-Tuong Vo ; Ba-Ngu Vo

Author_Institution

Dept. of Electr. & Comput. Eng., Curtin Univ., Bentley, WA, Australia

Volume

61

Issue

13

fYear

2013

fDate

1-Jul-13

Firstpage

3460

Lastpage

3475

Abstract

The objective of multi-object estimation is to simultaneously estimate the number of objects and their states from a set of observations in the presence of data association uncertainty, detection uncertainty, false observations, and noise. This estimation problem can be formulated in a Bayesian framework by modeling the (hidden) set of states and set of observations as random finite sets (RFSs) that covers thinning, Markov shifts, and superposition. A prior for the hidden RFS together with the likelihood of the realization of the observed RFS gives the posterior distribution via the application of Bayes rule. We propose a new class of RFS distributions that is conjugate with respect to the multiobject observation likelihood and closed under the Chapman-Kolmogorov equation. This result is tested on a Bayesian multi-target tracking algorithm.

Keywords

Bayes methods; Markov processes; data handling; object recognition; object tracking; set theory; target tracking; Bayesian framework; Chapman-Kolmogorov equation; Markov shifts; RFS; data association uncertainty; detection uncertainty; estimation problem; false observations; labeled random finite sets; multiobject conjugate priors; multiobject estimation; multitarget tracking algorithm; noise; Bayesian estimation; Random finite set; conjugate prior; marked point process; target tracking;

fLanguage

English

Journal_Title

Signal Processing, IEEE Transactions on

Publisher

ieee

ISSN

1053-587X

Type

jour

DOI

10.1109/TSP.2013.2259822

Filename

6507656