Integral and Indexing based Feature Extraction Method for Human Detection and Tracking

Authors

  • Jaykumar Limbasiya  PG Student, Information Technology Department, V.V.P. Engineering College, Rajkot, Gujarat, India
  • Hitul Marvaniya  Assistant Professor, Information Technology Department, V.V.P. Engineering College, Rajkot Gujarat, India

Keywords:

Human Tracking, Video Surveillance, Detection, Object Detection and Tracking, Feature Extraction, keypoints detection, Point tracking

Abstract

The detection and tracking of the human being in Video surveillance is a vibrant research topic in computer vision. It replaces old traditional method of monitoring camera feed by the human being by automatically detect and tracking along with the understanding of human behavior. Surveillance systems must be self-directed to improve the performance and eliminate such operator errors. Ideally, an automated surveillance system should only require the objectives of an application, in which there are real-time understanding of activities. Human detection includes detecting humans in each frame of video. Either each tracking method requires an object detection mechanism in every frame or when the object first appears in the video. Human tracking is the method of detecting human over time on the camera feed. The fast and efficient camera, high-quality videos, low priced camera and increasing need for the automatic system for detection and tracking will create interest in human tracking algorithms.

References

  1. C. Stauffer and W. E. L. Grimson, “Adaptive background mixture models for real-time tracking”, in Computer Vision and Pattern Recognition, 1999. IEEE Computer Society Conference on., vol. 2, pp. 246-252, IEEE, 1999.
  2. J. C. S. Jacques, C. R. Jung, and S. R. Musse, “Background subtraction and shadow detection in grayscale video sequences”, in Computer Graphics and Image Processing, 2005. SIBGRAPI 2005. 18th Brazilian Symposium on, pp. 189-196, IEEE, 2005.
  3. D. T. Nguyen, W. Li, and P. O. Ogunbona, “Human detection from images and videos: a survey”, Pattern Recognition, vol. 51, pp. 148-175, 2016.
  4. M. Brown and D. G. Lowe, “Invariant features from interest point groups.”, in BMVC, vol. 4, 2002.
  5. Wikipedia, “Scale-invariant feature transform - Wikipedia, the free encyclopedia.” http://en.wikipedia.org/wiki/Scale-invariant_feature_transform. Accessed Jan, 2017.
  6. H. Bay, T. Tuytelaars, and L. Van Gool, “Surf: Speeded up robust features”, Computer vision-ECCV 2006, pp. 404-417, 2006.
  7. K. Mikolajczyk and C. Schmid, “A performance evaluation of local descriptors”, IEEE transactions on pattern analysis and machine intelligence, vol. 27, no. 10, pp. 1615{1630, 2005.
  8. M. Calonder, V. Lepetit, C. Strecha, and P. Fua, “Brief: Binary robust independent elementary features”, Computer Vision{ECCV 2010, pp. 778{792, 2010.
  9. E. Rublee, V. Rabaud, K. Konolige, and G. Bradski, “Orb: An e_cient alternative to sift or surf”, in Computer Vision (ICCV), 2011 IEEE International Conference on, pp. 2564{2571, IEEE, 2011.
  10. I. R. Ben Benfold, “Active vision laboratory.” http://www.robots.ox.ac.uk/ActiveVision/Research/Projects/2009bbenfold_headpose/project.html#datasets. Accessed Nov, 2016.

IInternational Journal of Scientific Research in Computer Science, Engineering and Information Technology

Downloads

Published

2017-12-31

Issue

Volume 2, Issue 6, November-December-2017

Section

Research Articles

License

Copyright (c) IJSRCSEIT

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

[1]
Jaykumar Limbasiya, Hitul Marvaniya, " Integral and Indexing based Feature Extraction Method for Human Detection and Tracking" International Journal of Scientific Research in Computer Science, Engineering and Information Technology(IJSRCSEIT), ISSN : 2456-3307, Volume 2, Issue 6, pp.351-355, November-December-2017.