A Boosted Particle Filter: Multitarget Detection and Tracking

  • Kenji Okuma
  • Ali Taleghani
  • Nando de Freitas
  • James J. Little
  • David G. Lowe
Conference paper

DOI: 10.1007/978-3-540-24670-1_3

Part of the Lecture Notes in Computer Science book series (LNCS, volume 3021)
Cite this paper as:
Okuma K., Taleghani A., de Freitas N., Little J.J., Lowe D.G. (2004) A Boosted Particle Filter: Multitarget Detection and Tracking. In: Pajdla T., Matas J. (eds) Computer Vision - ECCV 2004. ECCV 2004. Lecture Notes in Computer Science, vol 3021. Springer, Berlin, Heidelberg

Abstract

The problem of tracking a varying number of non-rigid objects has two major difficulties. First, the observation models and target distributions can be highly non-linear and non-Gaussian. Second, the presence of a large, varying number of objects creates complex interactions with overlap and ambiguities. To surmount these difficulties, we introduce a vision system that is capable of learning, detecting and tracking the objects of interest. The system is demonstrated in the context of tracking hockey players using video sequences. Our approach combines the strengths of two successful algorithms: mixture particle filters and Adaboost. The mixture particle filter [17] is ideally suited to multi-target tracking as it assigns a mixture component to each player. The crucial design issues in mixture particle filters are the choice of the proposal distribution and the treatment of objects leaving and entering the scene. Here, we construct the proposal distribution using a mixture model that incorporates information from the dynamic models of each player and the detection hypotheses generated by Adaboost. The learned Adaboost proposal distribution allows us to quickly detect players entering the scene, while the filtering process enables us to keep track of the individual players. The result of interleaving Adaboost with mixture particle filters is a simple, yet powerful and fully automatic multiple object tracking system.

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Copyright information

© Springer-Verlag Berlin Heidelberg 2004

Authors and Affiliations

  • Kenji Okuma
    • 1
  • Ali Taleghani
    • 1
  • Nando de Freitas
    • 1
  • James J. Little
    • 1
  • David G. Lowe
    • 1
  1. 1.University of British ColumbiaVancouverCANADA

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