Title :
Robust camera motion estimation in presence of large moving objects
Author :
Tiburzi, Fabrizio ; Bescos, Jesus
Author_Institution :
Video Process. & Understanding Lab., Univ. Autonoma de Madrid, Madrid, Spain
Abstract :
Estimation and compensation of the camera motion is the first step in many video analysis applications. Existing robust global motion estimation (GME) techniques have proven to tolerate reasonable amounts of outliers in the data. However, when these outliers convey the motion of large objects, GME remains a major challenge. This paper reviews the main causes that make GME with large objects particularly difficult. Then it proposes an iterative RANSAC-based approach that, by exploiting the properties of the different types of fits that can be found in the data, determines the most suitable scale a-posteriori and can recover the camera motion even when objects are dominant. Evaluation with synthetic and natural sequences demonstrates the good performance of our approach.
Keywords :
image sequences; iterative methods; motion compensation; motion estimation; video signal processing; GME techniques; camera motion compensation; camera motion estimation; iterative RANSAC-based approach; large moving objects; natural sequences; random consensus approach; robust global motion estimation; synthetic sequences; video analysis applications; Global motion estimation; M-Estimation; RANSAC; camera motion estimation; large objects; video analysis;
Conference_Titel :
Image Processing (ICIP), 2013 20th IEEE International Conference on
Conference_Location :
Melbourne, VIC
DOI :
10.1109/ICIP.2013.6738517
