Efficient real-time local optical flow estimation by means of integral projections

Author

Senst, Tobias ; Eiselein, Volker ; Pätzold, Michael ; Sikora, Thomas

Author_Institution

Commun. Syst. Group, Tech. Univ. Berlin, Berlin, Germany

fYear

2011

fDate

11-14 Sept. 2011

Firstpage

2345

Lastpage

2348

Abstract

In this paper we present an approach for the efficient computation of optical flow fields in real-time and provide implementation details. Proposing a modification of the popular Lucas-Kanade energy functional based on integral projections allows us to speed up the method notably. We show the potential of this method which can compute dense flow fields of 640×480 pixels at a speed of 4 fps in a GPU implementation based on the OpenCL framework. Working on sparse optical flow fields of up to 17,000 points, we reach execution times of 70 fps. Optical flow methods are used in many different areas, the proposed method speeds up current surveillance algorithms used for scene description and crowd analysis or Augmented Reality and robot navigation applications.

Keywords

computer graphic equipment; coprocessors; image sequences; integral equations; GPU implementation; Lucas-Kanade energy functional; OpenCL framework; augmented reality; crowd analysis; graphics processing unit; integral projection; optical flow estimation; robot navigation application; scene description; surveillance algorithm; Conferences; Graphics processing unit; Integrated optics; Optical imaging; Optical sensors; Real time systems; Tracking; KLT; feature tracker; integral projection; optical flow; real-time;

fLanguage

English

Publisher

ieee

Conference_Titel

Image Processing (ICIP), 2011 18th IEEE International Conference on

Conference_Location

Brussels

ISSN

1522-4880

Print_ISBN

978-1-4577-1304-0

Electronic_ISBN

1522-4880

Type

conf

DOI

10.1109/ICIP.2011.6116111

Filename

6116111