Abstract

This paper extends parts of the results from [P. W. Michor and D. Mumford, Appl. Comput. Harmon. Anal., 23 (2007), pp. 74–113] for plane curves to the case of hypersurfaces in $\mathbb R^n$. Let M be a compact connected oriented $n-1$ dimensional manifold without boundary like the sphere or the torus. Then shape space is either the manifold of submanifolds of $\mathbb R^n$ of type M or the orbifold of immersions from M to $\mathbb R^n$ modulo the group of diffeomorphisms of M. We investigate almost local Riemannian metrics on shape space. These are induced by metrics of the following form on the space of immersions: $G_f(h,k) = \int_{M} \Phi(Vol(f),Tr(L))\bar{g}(h, k) vol(f^*\bar{g})$, where $\bar{g}$ is the Euclidean metric on $\mathbb R^n$, $f^*\bar{g}$ is the induced metric on M, $h,k\in C^\infty(M,\mathbb R^n)$ are tangent vectors at f to the space of embeddings or immersions, where $\Phi:\mathbb R^2\to \mathbb R_{>0}$ is a suitable smooth function, $Vol(f) = \int_M vol(f^*\bar{g})$ is the total hypersurface volume of $f(M)$, and the trace $Tr(L)$ of the Weingarten mapping is the mean curvature. For these metrics we compute the geodesic equations both on the space of immersions and on shape space, the conserved momenta arising from the obvious symmetries, and the sectional curvature. For special choices of $\Phi$ we give complete formulas for the sectional curvature. Numerical experiments illustrate the behavior of these metrics.

MSC codes

  1. 58B20
  2. 58D15
  3. 58E12
  4. 65K10

Keywords

  1. surface matching
  2. almost local Riemannian metrics
  3. shape space
  4. geodesic equation
  5. curvature
  6. numerical experiments

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Published In

cover image SIAM Journal on Imaging Sciences
SIAM Journal on Imaging Sciences
Pages: 244 - 310
ISSN (online): 1936-4954

History

Submitted: 8 September 2010
Accepted: 21 October 2011
Published online: 6 March 2012

MSC codes

  1. 58B20
  2. 58D15
  3. 58E12
  4. 65K10

Keywords

  1. surface matching
  2. almost local Riemannian metrics
  3. shape space
  4. geodesic equation
  5. curvature
  6. numerical experiments

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