Video stabilization taken with a snake robot

Author

Florez, Johana ; Calderon, Francisco ; Parra, Carlos

Author_Institution

SIRP Res. Group, Pontificia Univ. Javeriana Bogota, Bogota, Colombia

fYear

2013

fDate

11-13 Sept. 2013

Firstpage

1

Lastpage

5

Abstract

We design a digital image stabilization algorithm, to be applied in videos captured with a camera installed in the initial module of a snake robot. Stages for digital image stabilization were: motion estimation and motion compensation. In the case of motion estimation, we selected and evaluated two techniques: Pyramidal Lucas-Kanade optical flow and integral projections, using SAD and SSD as methods for comparison between the signatures. The system was implemented in OpenCV and their outputs were a video achieved the final compensation of the input video, and statistical measures of mean and standard deviation of the motion estimation between frames. The final algorithm can be implemented in real time due to its low computational cost and can be used as a pre-procesing method to acquired visual information from snake robot.

Keywords

image sequences; mobile robots; motion compensation; motion estimation; robot vision; video cameras; video signal processing; OpenCV; SAD; SSD; camera; computational cost; digital image stabilization algorithm; integral projections; mean deviation; motion compensation; motion estimation; pyramidal Lucas-Kanade optical flow; snake robot; standard deviation; statistical measures; video stabilization; visual information; Adaptive optics; Cameras; Digital images; Motion estimation; Optical imaging; Robot vision systems; Digital Image Stabilization; Pyramidal Lucas-Kanade optical flow; Snake robot; integral projections;

fLanguage

English

Publisher

ieee

Conference_Titel

Image, Signal Processing, and Artificial Vision (STSIVA), 2013 XVIII Symposium of

Conference_Location

Bogota

Print_ISBN

978-1-4799-1120-2

Type

conf

DOI

10.1109/STSIVA.2013.6644937

Filename

6644937