Paper Info
Title
Dynamic Texture Detection Based on Motion Analysis
Abstract
Motion estimation is usually based on the brightness constancy assumption. This assumption holds well for rigid objects with a Lambertian surface, but it is less appropriate for fluid and gaseous materials. For these materials an alternative assumption is required. This work examines three possible alternatives: gradient constancy, color constancy and brightness conservation (under this assumption the brightness of an object can diffuse to its neighborhood). Brightness conservation and color constancy are found to be adequate models. We propose a method for detecting regions of dynamic texture in image sequences. Accurate segmentation into regions of static and dynamic texture is achieved using a level set scheme. The level set function separates each image into regions that obey brightness constancy and regions that obey the alternative assumption. We show that the method can be simplified to obtain a less robust but fast algorithm, capable of real-time performance. Experimental results demonstrate accurate segmentation by the full level set scheme, as well as by the simplified method. The experiments included challenging image sequences, in which color or geometry cues by themselves would be insufficient.
Year
DOI
Venue
2009
10.1007/s11263-008-0184-y
International Journal of Computer Vision
Keywords
Field
DocType
Dynamic texture,Motion analysis,Optical flow,Level set,Real-time processing,Brightness conservation
Color constancy,Computer vision,Motion detection,Computer science,Image texture,Image processing,Image segmentation,Artificial intelligence,Motion estimation,Optical flow,Brightness
Journal
Volume
Issue
ISSN
82
1
0920-5691
Citations 
PageRank 
References 
22
0.93
46
Authors
4
Name
Order
Citations
PageRank
Sándor Fazekas12429.74
Tomer Amiaz2784.44
Chetverikov, D.395699.89
Nahum Kiryati41838162.51