Decomposition of Two-Dimensional Shapes by Graph-Theoretic Clustering

This paper describes a technique for transforming a twodimensional shape into a binary relation whose clusters represent the intuitively pleasing simple parts of the shape. The binary relation can be defined on the set of boundary points of the shape or on the set of line segments of a piecewise linear approximation to the boundary. The relation includes all pairs of vertices (or segments) such that the line segment joining the pair lies entirely interior to the boundary of the shape. The graph-theoretic clustering method first determines dense regions, which are local regions of high compactness, and then forms clusters by merging together those dense regions having high enough overlap. Using this procedure on handdrawn colon shapes copied from an X-ray and on handprinted characters, the parts determined by the clustering often correspond well to decompositions that a human might make.

[1]  Murray Eden,et al.  Handwriting and pattern recognition , 1962, IRE Trans. Inf. Theory.

[2]  Calvin C. Gotlieb,et al.  Semantic Clustering of Index Terms , 1968, J. ACM.

[3]  Theodosios Pavlidis,et al.  Analysis of set patterns , 1968, Pattern Recognit..

[4]  Jack Minker,et al.  An Analysis of Some Graph Theoretical Cluster Techniques , 1970, JACM.

[5]  Theodosios Pavlidis,et al.  Representation of figures by labeled graphs , 1972, Pattern Recognit..

[6]  D. J. Langridge ON THE COMPUTATION OF SHAPE , 1972 .

[7]  Kiyoshi Maruyama Study of visual shape perception , 1972 .

[8]  B. Rosenberg The analysis of convex blobs , 1972, Comput. Graph. Image Process..

[9]  Theodosios Pavlidis,et al.  Segmentation of Plane Curves , 1974, IEEE Transactions on Computers.

[10]  J. F. O'Callaghan,et al.  Recovery of perceptual shape organizations from simple closed boundaries , 1974, Comput. Graph. Image Process..

[11]  B. Rosenberg,et al.  Computing Dominant Points on Simple Shapes , 1974, Int. J. Man Mach. Stud..

[12]  Herbert Freeman,et al.  Computer Processing of Line-Drawing Images , 1974, CSUR.

[13]  Theodosios Pavlidis,et al.  Computer Recognition of Handwritten Numerals by Polygonal Approximations , 1975, IEEE Transactions on Systems, Man, and Cybernetics.

[14]  Theodosios Pavlidis,et al.  Decomposition of Polygons into Simpler Components: Feature Generation for Syntactic Pattern Recognition , 1975, IEEE Transactions on Computers.

[15]  Larry S. Davis,et al.  Understanding Shape: Angles and Sides , 1977, IEEE Transactions on Computers.

[16]  Theodosios Pavlidis,et al.  A review of algorithms for shape analysis , 1978 .

[17]  Larry S. Davis,et al.  Shape Matching Using Relaxation Techniques , 1979, IEEE Transactions on Pattern Analysis and Machine Intelligence.