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Box-particle probability hypothesis density filtering

 
: Schikora, M.; Gning, A.; Mihaylova, L.; Cremers, D.; Koch, W.

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IEEE transactions on aerospace and electronic systems 50 (2014), Nr.3, S.1660-1672
ISSN: 0018-9251
ISSN: 1557-9603
European Commission EC
FP7-PEOPLE; 238710; MC IMPULSE
Englisch
Zeitschriftenaufsatz
Fraunhofer FKIE ()

Abstract
This paper develops a novel approach for multitarget tracking, called box-particle probability hypothesis density filter (box-PHD filter). The approach is able to track multiple targets and estimates the unknown number of targets. Furthermore, it is capable of dealing with three sources of uncertainty: stochastic, set-theoretic, and data association uncertainty. The box-PHD filter reduces the number of particles significantly, which improves the runtime considerably. The small number of box-particles makes this approach attractive for distributed inference, especially when particles have to be shared over networks. A box-particle is a random sample that occupies a small and controllable rectangular region of non-zero volume. Manipulation of boxes utilizes methods from the field of interval analysis. The theoretical derivation of the box-PHD filter is presented followed by a comparative analysis with a standard sequential Monte Carlo (SMC) version of the PHD filter. To measure the performance objectively three measures are used: inclusion, volume, and the optimum subpattern assignment (OSPA) metric. Our studies suggest that the box-PHD filter reaches similar accuracy results, like an SMC-PHD filter but with considerably less computational costs. Furthermore, we can show that in the presence of strongly biased measurement the box-PHD filter even outperforms the classical SMC-PHD filter.

: http://publica.fraunhofer.de/dokumente/N-324356.html