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Intensity Particle Flow SMC-PHD Filter For Audio Speaker Tracking

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arxiv 1812.01570 v1 pith:OCTY3F7Y submitted 2018-12-04 cs.SD eess.AS

Intensity Particle Flow SMC-PHD Filter For Audio Speaker Tracking

classification cs.SD eess.AS
keywords flowparticletrackingfilterintensitydetectionestimationipf-smc-phd
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Non-zero diffusion particle flow Sequential Monte Carlo probability hypothesis density (NPF-SMC-PHD) filtering has been recently introduced for multi-speaker tracking. However, the NPF does not consider the missing detection which plays a key role in estimation of the number of speakers with their states. To address this limitation, we propose to use intensity particle flow (IPF) in NPFSMC-PHD filter. The proposed method, IPF-SMC-PHD, considers the clutter intensity and detection probability while no data association algorithms are used for the calculation of particle flow. Experiments on the LOCATA (acoustic source Localization and Tracking) dataset with the sequences of task 4 show that our proposed IPF-SMC-PHD filter improves the tracking performance in terms of estimation accuracy as compared to its baseline counterparts.

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