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A Second-Order PHD filter with mean and variance in target number

A Second-Order PHD filter with mean and variance in target number
A Second-Order PHD filter with mean and variance in target number
The Probability Hypothesis Density (PHD) and Cardinalized PHD (CPHD) filters are popular solutions to the multitarget tracking problem due to their low complexity and ability to estimate the number and states of targets in cluttered environments. The PHD filter propagates the first-order moment (i.e. mean) of the number of targets while the CPHD propagates the cardinality distribution in the number of targets, albeit for a greater computational cost. Introducing the Panjer point process, this paper proposes a Second-Order PHD (SO-PHD) filter, propagating the second-order moment (i.e., variance) of the number of targets alongside its mean. The resulting algorithm is more versatile in the modeling choices than the PHD filter, and its computational cost is significantly lower compared to the CPHD filter. This paper compares the three filters in statistical simulations which demonstrate that the proposed filter reacts more quickly to changes in the number of targets, i.e., target births and target deaths, than the CPHD filter. In addition, a new statistic for multiobject filters is introduced in order to study the correlation between the estimated number of targets in different regions of the state space, and propose a quantitative analysis of the spooky effect for the three filters
1053-587X
48-63
Schlangen, Isabel
3c69b082-aadc-49cb-8bf9-8df20a8d2c7a
Delande, Emmanuel D.
e17b3b32-0949-4914-801e-c9386bce39a5
Houssineau, Jérémie
54d4df9b-ceaa-456d-b668-63c617e6894a
Clark, Daniel E.
537f80e8-cbe6-41eb-b1d4-31af1f0e6393
Schlangen, Isabel
3c69b082-aadc-49cb-8bf9-8df20a8d2c7a
Delande, Emmanuel D.
e17b3b32-0949-4914-801e-c9386bce39a5
Houssineau, Jérémie
54d4df9b-ceaa-456d-b668-63c617e6894a
Clark, Daniel E.
537f80e8-cbe6-41eb-b1d4-31af1f0e6393

Schlangen, Isabel, Delande, Emmanuel D., Houssineau, Jérémie and Clark, Daniel E. (2018) A Second-Order PHD filter with mean and variance in target number. IEEE Transactions on Signal Processing, 66 (1), 48-63. (doi:10.1109/TSP.2017.2757905).

Record type: Article

Abstract

The Probability Hypothesis Density (PHD) and Cardinalized PHD (CPHD) filters are popular solutions to the multitarget tracking problem due to their low complexity and ability to estimate the number and states of targets in cluttered environments. The PHD filter propagates the first-order moment (i.e. mean) of the number of targets while the CPHD propagates the cardinality distribution in the number of targets, albeit for a greater computational cost. Introducing the Panjer point process, this paper proposes a Second-Order PHD (SO-PHD) filter, propagating the second-order moment (i.e., variance) of the number of targets alongside its mean. The resulting algorithm is more versatile in the modeling choices than the PHD filter, and its computational cost is significantly lower compared to the CPHD filter. This paper compares the three filters in statistical simulations which demonstrate that the proposed filter reacts more quickly to changes in the number of targets, i.e., target births and target deaths, than the CPHD filter. In addition, a new statistic for multiobject filters is introduced in order to study the correlation between the estimated number of targets in different regions of the state space, and propose a quantitative analysis of the spooky effect for the three filters

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e-pub ahead of print date: 28 September 2017
Published date: 1 January 2018
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Identifiers

Local EPrints ID: 474467
URI: http://eprints.soton.ac.uk/id/eprint/474467
DOI: doi:10.1109/TSP.2017.2757905
ISSN: 1053-587X
PURE UUID: 6f6a1525-2a96-43e9-a36b-384554f5fee0

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Date deposited: 22 Feb 2023 21:08
Last modified: 16 Mar 2024 23:15

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Contributors

Author: Isabel Schlangen
Author: Emmanuel D. Delande
Author: Jérémie Houssineau
Author: Daniel E. Clark

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