DocumentCode
1741529
Title
A novel rigid object segmentation method based on multiresolution 3-D motion and luminance analysis
Author
Papadimitriou, Th. ; Diamantaras, K.I. ; Strintzis, M.G. ; Roumeliotis, M.
Author_Institution
Educ. Technol. Lab., Univ. of Macedonia, Thessaloniki, Greece
Volume
1
fYear
2000
fDate
2000
Firstpage
323
Abstract
We present a new image sequence segmentation method which combines both spatial and temporal information in a multiresolution framework. A region growing technique in a multiresolution scheme outputs an over-segmented partition of the image scene. Pure temporal information is collected for each region using a feature extraction/feature tracking technique. Motion information is further processed in a pyramidal robust motion estimation scheme, in order to calculate more complex motion parameters for each region. Regions obtained from the first step are clustered according to their motion models. This ensures that rigid objects with luminance discontinuities can be segmented correctly. The method has been successfully tested in real imagery and typical examples are presented
Keywords
brightness; feature extraction; image resolution; image segmentation; image sequences; motion estimation; tracking; video signal processing; feature extraction/feature tracking; feature matching; image sequence segmentation; luminance analysis; luminance discontinuities; motion information; motion models; motion parameters; multiresolution 3D motion analysis; over-segmented image scene partition; pyramidal robust motion estimation; real imagery; rigid object segmentation method; rigid objects; spatial information; temporal information; video coding; video compression; video transmission; Feature extraction; Image resolution; Image segmentation; Image sequences; Layout; Motion estimation; Object segmentation; Robustness; Spatial resolution; Testing;
fLanguage
English
Publisher
ieee
Conference_Titel
Image Processing, 2000. Proceedings. 2000 International Conference on
Conference_Location
Vancouver, BC
ISSN
1522-4880
Print_ISBN
0-7803-6297-7
Type
conf
DOI
10.1109/ICIP.2000.900960
Filename
900960
Link To Document