Shock graphs and shape matching

Author

Siddiqi, Kaleem ; Shokoufandeh, Ali ; Dickenson, S.J. ; Zucker, Steven W.

Author_Institution

Center for Comput. Vision & Control, Yale Univ., New Haven, CT, USA

fYear

1998

fDate

4-7 Jan 1998

Firstpage

222

Lastpage

229

Abstract

We have been developing a theory for the generic representation of 2-D shape, where structural descriptions are derived from the shocks (singularities) of a curve evolution process, acting on bounding contours. We now apply the theory to the problem of shape matching. The shocks are organized into a directed, acyclic shock graph, and complexity is managed by attending to the most significant (central) shape components first. The space of all such graphs is highly structured and can be characterized by the rules of a shock graph grammar. The grammar permits a reduction of a shockgraph to a unique rooted shock tree. We introduce a novel tree matching algorithm which finds the best set of corresponding nodes between two shock trees in polynomial time. Using a diverse database of shapes, we demonstrate our system´s performance under articulation, occlusion, and changes in viewpoint

Keywords

graph grammars; image matching; 2D shape; acyclic shock graph; bounding contours; complexity; curve evolution; graph grammar; polynomial time; rooted shock tree; shape matching; shock trees; shockgraph; tree matching; Computer science; Computer vision; Databases; Electric shock; Equations; Heart; Neck; Object recognition; Shape control; Tree graphs;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Vision, 1998. Sixth International Conference on

Conference_Location

Bombay

Print_ISBN

81-7319-221-9

Type

conf

DOI

10.1109/ICCV.1998.710722

Filename

710722