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Adaptive target birth intensity for PHD and CPHD filters

Adaptive target birth intensity for PHD and CPHD filters
Adaptive target birth intensity for PHD and CPHD filters
The standard formulation of the probability hypothesis density (PHD) and cardinalised PHD (CPHD) filters assumes that the target birth intensity is known a priori. In situations where the targets can appear anywhere in the surveillance volume this is clearly inefficient, since the target birth intensity needs to cover the entire state space. This paper presents a new extension of the PHD and CPHD filters, which distinguishes between the persistent and the newborn targets. This extension enables us to adaptively design the target birth intensity at each scan using the received measurements. Sequential Monte-Carlo (SMC) implementations of the resulting PHD and CPHD filters are presented and their performance studied numerically. The proposed measurement-driven birth intensity improves the estimation accuracy of both the number of targets and their spatial distribution
1656-1668
Ristic, B.
f51eed3b-da8d-49a8-884b-725d075c1a5e
Clark, D.
537f80e8-cbe6-41eb-b1d4-31af1f0e6393
Vo, B.-N.
d19a6f68-7c1f-4af0-8069-0d457c3b66ed
Vo, B.-T.
b8a660f7-8c9f-493e-97e0-07825aa1035e
Ristic, B.
f51eed3b-da8d-49a8-884b-725d075c1a5e
Clark, D.
537f80e8-cbe6-41eb-b1d4-31af1f0e6393
Vo, B.-N.
d19a6f68-7c1f-4af0-8069-0d457c3b66ed
Vo, B.-T.
b8a660f7-8c9f-493e-97e0-07825aa1035e

Ristic, B., Clark, D., Vo, B.-N. and Vo, B.-T. (2012) Adaptive target birth intensity for PHD and CPHD filters. IEEE Transactions on Aerospace and Electronic Systems, 48 (2), 1656-1668. (doi:10.1109/TAES.2012.6178085).

Record type: Article

Abstract

The standard formulation of the probability hypothesis density (PHD) and cardinalised PHD (CPHD) filters assumes that the target birth intensity is known a priori. In situations where the targets can appear anywhere in the surveillance volume this is clearly inefficient, since the target birth intensity needs to cover the entire state space. This paper presents a new extension of the PHD and CPHD filters, which distinguishes between the persistent and the newborn targets. This extension enables us to adaptively design the target birth intensity at each scan using the received measurements. Sequential Monte-Carlo (SMC) implementations of the resulting PHD and CPHD filters are presented and their performance studied numerically. The proposed measurement-driven birth intensity improves the estimation accuracy of both the number of targets and their spatial distribution

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Published date: 5 April 2012
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Identifiers

Local EPrints ID: 473603
URI: http://eprints.soton.ac.uk/id/eprint/473603
DOI: doi:10.1109/TAES.2012.6178085
PURE UUID: 799efe49-75cb-4efa-bfa9-424b706e76fc

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Date deposited: 24 Jan 2023 17:50
Last modified: 16 Mar 2024 23:15

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Contributors

Author: B. Ristic
Author: D. Clark
Author: B.-N. Vo
Author: B.-T. Vo

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