Distributed fusion of PHD filters via exponential mixture densities
Distributed fusion of PHD filters via exponential mixture densities
In this paper, we consider the problem of Distributed Multi-sensor Multi-target Tracking (DMMT) for networked fusion systems. Many existing approaches for DMMT use multiple hypothesis tracking and track-to-track fusion. However, there are two difficulties with these approaches. First, the computational costs of these algorithms can scale factorially with the number of hypotheses. Second, consistent optimal fusion, which does not double count information, can only be guaranteed for highly constrained network architectures which largely undermine the benefits of distributed fusion. In this paper, we develop a consistent approach for DMMT by combining a generalized version of Covariance Intersection, based on Exponential Mixture Densities (EMDs), with Random Finite Sets (RFS). We first derive explicit formulae for the use of EMDs with RFSs. From this, we develop expressions for the probability hypothesis density filters. This approach supports DMMT in arbitrary network topologies through local communications and computations. We implement this approach using Sequential Monte Carlo techniques and demonstrate its performance in simulations
521-531
Uney, Murat
f704f6e8-3ff8-4ec3-a670-708cf2079051
Clark, D.E.
537f80e8-cbe6-41eb-b1d4-31af1f0e6393
Julier, Simon J.
235e7de9-827e-4fb8-bc04-46e93136ac43
5 April 2013
Uney, Murat
f704f6e8-3ff8-4ec3-a670-708cf2079051
Clark, D.E.
537f80e8-cbe6-41eb-b1d4-31af1f0e6393
Julier, Simon J.
235e7de9-827e-4fb8-bc04-46e93136ac43
Uney, Murat, Clark, D.E. and Julier, Simon J.
(2013)
Distributed fusion of PHD filters via exponential mixture densities.
IEEE Journal on Selected Topics in Signal Processing, 7 (3), .
(doi:10.1109/JSTSP.2013.2257162).
Abstract
In this paper, we consider the problem of Distributed Multi-sensor Multi-target Tracking (DMMT) for networked fusion systems. Many existing approaches for DMMT use multiple hypothesis tracking and track-to-track fusion. However, there are two difficulties with these approaches. First, the computational costs of these algorithms can scale factorially with the number of hypotheses. Second, consistent optimal fusion, which does not double count information, can only be guaranteed for highly constrained network architectures which largely undermine the benefits of distributed fusion. In this paper, we develop a consistent approach for DMMT by combining a generalized version of Covariance Intersection, based on Exponential Mixture Densities (EMDs), with Random Finite Sets (RFS). We first derive explicit formulae for the use of EMDs with RFSs. From this, we develop expressions for the probability hypothesis density filters. This approach supports DMMT in arbitrary network topologies through local communications and computations. We implement this approach using Sequential Monte Carlo techniques and demonstrate its performance in simulations
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Published date: 5 April 2013
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Local EPrints ID: 474472
URI: http://eprints.soton.ac.uk/id/eprint/474472
PURE UUID: 292d30c4-0daa-495d-b969-a688f4f67fb8
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Date deposited: 22 Feb 2023 21:08
Last modified: 16 Mar 2024 23:15
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Author:
Murat Uney
Author:
D.E. Clark
Author:
Simon J. Julier
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