Mathematics – Differential Geometry
Scientific paper
2011-06-22
Mathematics
Differential Geometry
4 figures, full version of work presented first at Third Workshop on Non-Rigid Shape Analysis and Deformable Image Alignment (
Scientific paper
The Procrustes distance is used to quantify the similarity or dissimilarity of (3-dimensional) shapes, and extensively used in biological morphometrics. Typically each (normalized) shape is represented by N landmark points, chosen to be homologous (i.e. corresponding to each other), as far as possible, and the Procrustes distance is then computed as the infimum, over all Euclidean transformations R, of the sum of the squared Euclidean distances between R x_j and x'_j, and the correspondences x_j <-> x'_j are picked in an optimal way. The discrete Procrustes distance has the drawback that each shape is represented by only a finite number of points, which may not capture all the geometric aspects of interest; a need has been expressed for alternatives that are still easy to compute. We propose in this paper the concept of continuous Procrustes distance, and prove that it provides a true metric for two-dimensional surfaces embedded in three dimensions. The continuous Procrustes distance leads to a hard optimization problem over the group of area-preserving diffeomorphisms. One of the core observations of our paper is that for small continuous Procrustes distances, the global optimum of the Procrustes distance can be uniformly approximated by a conformal map. This observation leads to an efficient algorithm to calculate approximations to this new distance.
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