Visual tracking based on particle filter with spline resampling

We introduce the concept of a spline resampling in the particle filter to deal with the high accuracy and the sample impoverishment. The resampling is usually based on a linear transformation on the weights of the particles, so it affects the accurate filtering. The spline resampling consists of two...

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Veröffentlicht in:	Multimedia tools and applications 2015-09, Vol.74 (17), p.7195-7220
Hauptverfasser:	Choe, Gwangmin, Wang, Tianjiang, Liu, Fang, Choe, Chunhwa, So, Hyoson
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Sprache:	eng
Schlagworte:	Accuracy Algorithms Analysis Cameras Computer Communication Networks Computer Science Data Structures and Information Theory Filtering Filtration Hypotheses Image processing systems Laboratories Multimedia Information Systems Resampling Special Purpose and Application-Based Systems Splines Spreads Studies Tracking Transformations
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container_end_page	7220
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container_title	Multimedia tools and applications
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creator	Choe, Gwangmin Wang, Tianjiang Liu, Fang Choe, Chunhwa So, Hyoson
description	We introduce the concept of a spline resampling in the particle filter to deal with the high accuracy and the sample impoverishment. The resampling is usually based on a linear transformation on the weights of the particles, so it affects the accurate filtering. The spline resampling consists of two parts: the spline transformation of weights and the spread transformation of states. The former is based on a spline transformation on the weights of the particles to obtain the high accuracy of particle filtering, and the latter is based on a point spread transformation on states of particles to prevent the sample impoverishment due to decline of the diversity of hypothesis after resampling. Two transformations are sequentially implemented to incorporate with each other. Then, we propose a global transition model in the particle filter, which takes account of the background variation caused by the camera motion model of object itself, to decrease error from real object position. We test the performance of our spline resampling and the global transition model in the particle filter in object tracking scenario. Experimental results demonstrate that particle filter with the spline resampling and the global transition model has the promising discriminative capability in comparison with other ones.
doi_str_mv	10.1007/s11042-014-1960-z
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The resampling is usually based on a linear transformation on the weights of the particles, so it affects the accurate filtering. The spline resampling consists of two parts: the spline transformation of weights and the spread transformation of states. The former is based on a spline transformation on the weights of the particles to obtain the high accuracy of particle filtering, and the latter is based on a point spread transformation on states of particles to prevent the sample impoverishment due to decline of the diversity of hypothesis after resampling. Two transformations are sequentially implemented to incorporate with each other. Then, we propose a global transition model in the particle filter, which takes account of the background variation caused by the camera motion model of object itself, to decrease error from real object position. We test the performance of our spline resampling and the global transition model in the particle filter in object tracking scenario. Experimental results demonstrate that particle filter with the spline resampling and the global transition model has the promising discriminative capability in comparison with other ones.</abstract><cop>New York</cop><pub>Springer US</pub><doi>10.1007/s11042-014-1960-z</doi><tpages>26</tpages></addata></record>
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subjects	Accuracy Algorithms Analysis Cameras Computer Communication Networks Computer Science Data Structures and Information Theory Filtering Filtration Hypotheses Image processing systems Laboratories Multimedia Information Systems Resampling Special Purpose and Application-Based Systems Splines Spreads Studies Tracking Transformations
title	Visual tracking based on particle filter with spline resampling
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