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Progress in Optomechatronic Technologies pp 141–145Cite as

Adaptive 3D Object Pose Estimation Through Particle Swarm Optimization

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Part of the book series: Springer Proceedings in Physics ((SPPHY,volume 233))

Abstract

Estimating the 3D pose of objects is an important problem in vision-based robotics. Kalman filters are commonly used as efficient solutions to this problem. However, the performance of these filters deteriorates when system’s noise statistics are not known a priori. This work proposes an adaptive scheme based on particle swarm optimization (PSO) to adjust the measurement noise covariance of the filter. The experimental results confirm the effectiveness of the proposed adaptive solution for Kalman-based pose estimation with uncertain noise statistics.

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Author information

Authors and Affiliations

  1. University of Toronto, Toronto, Canada

    Akbar Assa

  2. Ryerson University, Toronto, Canada

    Farrokh Janabi-Sharifi

Authors
  1. Akbar Assa
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  2. Farrokh Janabi-Sharifi
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Corresponding author

Correspondence to Akbar Assa .

Editor information

Editors and Affiliations

  1. Centro de Investigaciones en Óptica, León, Guanajuato, Mexico

    Amalia Martínez-García

  2. University of Calcutta, Kolkata, West Bengal, India

    Indrani Bhattacharya

  3. Center for Optical Research and Education, Utsunomiya University, Utsunomiya, Tochigi, Japan

    Yukitoshi Otani

  4. Institute of Production Technology, Braunschweig University, Braunschweig, Niedersachsen, Germany

    Rainer Tutsch

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© 2019 Springer Nature Singapore Pte Ltd.

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Assa, A., Janabi-Sharifi, F. (2019). Adaptive 3D Object Pose Estimation Through Particle Swarm Optimization. In: Martínez-García, A., Bhattacharya, I., Otani, Y., Tutsch, R. (eds) Progress in Optomechatronic Technologies . Springer Proceedings in Physics, vol 233. Springer, Singapore. https://doi.org/10.1007/978-981-32-9632-9_17

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  • DOI: https://doi.org/10.1007/978-981-32-9632-9_17

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  • Publisher Name: Springer, Singapore

  • Print ISBN: 978-981-32-9631-2

  • Online ISBN: 978-981-32-9632-9

  • eBook Packages: Physics and AstronomyPhysics and Astronomy (R0)

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