DocumentCode
3401639
Title
Common visual pattern discovery via spatially coherent correspondences
Author
Liu, Hairong ; Yan, Shuicheng
Author_Institution
Dept. of Electr. & Comput. Eng., Nat. Univ. of Singapore, Singapore, Singapore
fYear
2010
fDate
13-18 June 2010
Firstpage
1609
Lastpage
1616
Abstract
We investigate how to discover all common visual patterns within two sets of feature points. Common visual patterns generally share similar local features as well as similar spatial layout. In this paper these two types of information are integrated and encoded into the edges of a graph whose nodes represent potential correspondences, and the common visual patterns then correspond to those strongly connected subgraphs. All such strongly connected subgraphs correspond to large local maxima of a quadratic function on simplex, which is an approximate measure of the average intra-cluster affinity score of these subgraphs. We find all large local maxima of this function, thus discover all common visual patterns and recover the correct correspondences, using replicator equation and through a systematic way of initialization. The proposed algorithm possesses two characteristics: 1) robust to outliers, and 2) being able to discover all common visual patterns, no matter the mappings among the common visual patterns are one to one, one to many, or many to many. Extensive experiments on both point sets and real images demonstrate the properties of our proposed algorithm in terms of robustness to outliers, tolerance to large spatial deformations, and simplicity in implementation.
Keywords
computer vision; edge detection; graph theory; average intracluster affinity; connected subgraphs; quadratic function; replicator equation; visual pattern discovery; Encoding; Equations; Humans; Noise robustness; Object detection; Object recognition; Pattern matching; Redundancy; Spatial coherence;
fLanguage
English
Publisher
ieee
Conference_Titel
Computer Vision and Pattern Recognition (CVPR), 2010 IEEE Conference on
Conference_Location
San Francisco, CA
ISSN
1063-6919
Print_ISBN
978-1-4244-6984-0
Type
conf
DOI
10.1109/CVPR.2010.5539780
Filename
5539780
Link To Document