Robust Object Tracking in Infrared Video via Particle Filters

Authors

  • Edgardo Antonio Comas National Technological University (Buenos Aires, Argentina) Institute of Scientific and Technical Research for Defense
  • Adrián Stácul
  • Claudio Delrieux

Abstract

In this paper we investigate the effectiveness of particle filters for object tracking in infrared videos. Once the user identifies the target object to be followed in position and size, its most representative feature points are obtained by means of the SURF algorithm. A particle filter is initialized with these feature points, and the location of the object within the video frames is determined by the average value of the particles that have a greater similarity with the target. Two different field tests were carried out to study the filter behaviour in comparison with previously used methods in the bibliography. The first one was tracking an unmanned aerial vehicle (UAV) in the open. The second one was to identify a heliport in a noisy infrared zenithal video take. In the first test, the UAV was followed by another positioning system simultaneously, thus allowing the comparison of both systems, and the evaluation in the improvement introduced by the particle algorithm.

Keywords

Image Analysis, Pattern Recognition, Tracking, Particle Filter

Author Biography

Edgardo Antonio Comas, National Technological University (Buenos Aires, Argentina) Institute of Scientific and Technical Research for Defense

National Technological University (Buenos Aires, Argentina), Electronic Department, Professor, 

Institute of Scientific and Technical Research for Defense, Manager of Electronic Department

Published

2020-07-01

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