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Markerless Human Motion Tracking Using Hierarchical Multi-Swarm Cooperative Particle Swarm Optimization

Author

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  • Sanjay Saini
  • Nordin Zakaria
  • Dayang Rohaya Awang Rambli
  • Suziah Sulaiman

Abstract

The high-dimensional search space involved in markerless full-body articulated human motion tracking from multiple-views video sequences has led to a number of solutions based on metaheuristics, the most recent form of which is Particle Swarm Optimization (PSO). However, the classical PSO suffers from premature convergence and it is trapped easily into local optima, significantly affecting the tracking accuracy. To overcome these drawbacks, we have developed a method for the problem based on Hierarchical Multi-Swarm Cooperative Particle Swarm Optimization (H-MCPSO). The tracking problem is formulated as a non-linear 34-dimensional function optimization problem where the fitness function quantifies the difference between the observed image and a projection of the model configuration. Both the silhouette and edge likelihoods are used in the fitness function. Experiments using Brown and HumanEva-II dataset demonstrated that H-MCPSO performance is better than two leading alternative approaches—Annealed Particle Filter (APF) and Hierarchical Particle Swarm Optimization (HPSO). Further, the proposed tracking method is capable of automatic initialization and self-recovery from temporary tracking failures. Comprehensive experimental results are presented to support the claims.

Suggested Citation

  • Sanjay Saini & Nordin Zakaria & Dayang Rohaya Awang Rambli & Suziah Sulaiman, 2015. "Markerless Human Motion Tracking Using Hierarchical Multi-Swarm Cooperative Particle Swarm Optimization," PLOS ONE, Public Library of Science, vol. 10(5), pages 1-22, May.
  • Handle: RePEc:plo:pone00:0127833
    DOI: 10.1371/journal.pone.0127833
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    Cited by:

    1. Tomasz Krzeszowski & Krzysztof Przednowek & Krzysztof Wiktorowicz & Janusz Iskra, 2016. "Estimation of hurdle clearance parameters using a monocular human motion tracking method," Computer Methods in Biomechanics and Biomedical Engineering, Taylor & Francis Journals, vol. 19(12), pages 1319-1329, September.

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