Difference between revisions of "Publications/dubuisson.15.visapp"
From LRDE
| Line 7: | Line 7: | ||
| pages = 446 to 453 |
| pages = 446 to 453 |
||
| abstract = The particle filter is known to be efficient for visual tracking. However, its parameters are empirically fixeddepending on the target application, the video sequences and the context. In this paper, we introduce a new algorithm which automatically adjusts ``on-line" two majors of them: the correction and the propagation parameters. Our purpose is to determine, for each frame of a video, the optimal value of the correction parameter and to adjust the propagation one to improve the tracking performance. On one hand, our experimental results show that the common settings of particle filter are sub-optimal. On another hand, we prove that our approach achieves a lower tracking error without needing tuning these parameters. Our adaptive method allows to track objects in complex conditions (illumination changes, cluttered background, etc.) without adding any computational cost compared to the common usage with fixed parameters. |
| abstract = The particle filter is known to be efficient for visual tracking. However, its parameters are empirically fixeddepending on the target application, the video sequences and the context. In this paper, we introduce a new algorithm which automatically adjusts ``on-line" two majors of them: the correction and the propagation parameters. Our purpose is to determine, for each frame of a video, the optimal value of the correction parameter and to adjust the propagation one to improve the tracking performance. On one hand, our experimental results show that the common settings of particle filter are sub-optimal. On another hand, we prove that our approach achieves a lower tracking error without needing tuning these parameters. Our adaptive method allows to track objects in complex conditions (illumination changes, cluttered background, etc.) without adding any computational cost compared to the common usage with fixed parameters. |
||
| + | | lrdepaper = http://www.lrde.epita.fr/dload/papers/dubuisson.15.visapp.pdf |
||
| lrdeprojects = Image |
| lrdeprojects = Image |
||
| type = inproceedings |
| type = inproceedings |
||
Revision as of 00:00, 8 September 2016
- Authors
- Séverine Dubuisson, Myriam Robert-Seidowsky, Jonathan Fabrizio
- Where
- Proceedings of the 10th International Conference on Computer Vision Theory and Applications (VISAPP)
- Type
- inproceedings
- Projects
- Image"Image" is not in the list (Vaucanson, Spot, URBI, Olena, APMC, Tiger, Climb, Speaker ID, Transformers, Bison, ...) of allowed values for the "Related project" property.
- Date
- 2015-03-01
Abstract
The particle filter is known to be efficient for visual tracking. However, its parameters are empirically fixeddepending on the target application, the video sequences and the context. In this paper, we introduce a new algorithm which automatically adjusts ``on-line" two majors of them: the correction and the propagation parameters. Our purpose is to determine, for each frame of a video, the optimal value of the correction parameter and to adjust the propagation one to improve the tracking performance. On one hand, our experimental results show that the common settings of particle filter are sub-optimal. On another hand, we prove that our approach achieves a lower tracking error without needing tuning these parameters. Our adaptive method allows to track objects in complex conditions (illumination changes, cluttered background, etc.) without adding any computational cost compared to the common usage with fixed parameters.
Documents
Bibtex (lrde.bib)
@InProceedings{ dubuisson.15.visapp,
author = {S\'everine Dubuisson and Myriam Robert-Seidowsky and
Jonathan Fabrizio},
title = {A self-adaptive likelihood function for tracking with
particle filter},
booktitle = {Proceedings of the 10th International Conference on
Computer Vision Theory and Applications (VISAPP)},
month = mar,
year = 2015,
pages = {446--453},
abstract = { The particle filter is known to be efficient for visual
tracking. However, its parameters are empirically fixed,
depending on the target application, the video sequences
and the context. In this paper, we introduce a new
algorithm which automatically adjusts ``on-line" two majors
of them: the correction and the propagation parameters. Our
purpose is to determine, for each frame of a video, the
optimal value of the correction parameter and to adjust the
propagation one to improve the tracking performance. On one
hand, our experimental results show that the common
settings of particle filter are sub-optimal. On another
hand, we prove that our approach achieves a lower tracking
error without needing tuning these parameters. Our adaptive
method allows to track objects in complex conditions
(illumination changes, cluttered background, etc.) without
adding any computational cost compared to the common usage
with fixed parameters.}
}