Statistical shape analysis: clustering, learning, and testing
Florida State University · Institute of Electrical and Electronics Engineers
Abstract
Using a differential-geometric treatment of planar shapes, we present tools for: 1) hierarchical clustering of imaged objects according to the shapes of their boundaries, 2) learning of probability models for clusters of shapes, and 3) testing of newly observed shapes under competing probability models. Clustering at any level of hierarchy is performed using a mimimum variance type criterion criterion and a Markov process. Statistical means of clusters provide shapes to be clustered at the next higher level, thus building a hierarchy of shapes. Using finite-dimensional approximations of spaces tangent to the shape space at sample means, we (implicitly) impose probability models on the shape space, and results…
Citation impact
- FWCI
- 247.41
- Percentile
- 100%
- References
- 37
Authors
4Topics & keywords
- Cluster analysis
- Computer science
- Hierarchical clustering
- Artificial intelligence
- Statistical hypothesis testing
- Hierarchy
- Pattern recognition (psychology)
- Sample space