Topic
Simplicial approximation theorem
About: Simplicial approximation theorem is a research topic. Over the lifetime, 782 publications have been published within this topic receiving 18370 citations.
Papers published on a yearly basis
1 / 2
Papers
2 Jun 2004
TL;DR: This paper tackles the problem of computing topological invariants of geometric objects in a robust manner, using only point cloud data sampled from the object, and produces a nested family of simplicial complexes, which represent the data at different feature scales, suitable for calculating persistent homology.
Abstract: This paper tackles the problem of computing topological invariants of geometric objects in a robust manner, using only point cloud data sampled from the object. It is now widely recognised that this kind of topological analysis can give qualitative information about data sets which is not readily available by other means. In particular, it can be an aid to visualisation of high dimensional data. Standard simplicial complexes for approximating the topological type of the underlying space (such as Cech, Rips, or a-shape) produce simplicial complexes whose vertex set has the same size as the underlying set of point cloud data. Such constructions are sometimes still tractable, but are wasteful (of computing resources) since the homotopy types of the underlying objects are generally realisable on much smaller vertex sets. We obtain smaller complexes by choosing a set of 'landmark' points from our data set, and then constructing a "witness complex" on this set using ideas motivated by the usual Delaunay complex in Euclidean space. The key idea is that the remaining (non-landmark) data points are used as witnesses to the existence of edges or simplices spanned by combinations of landmark points.
Our construction generalises the topology-preserving graphs of Martinetz and Schulten [MS94] in two directions. First, it produces a simplicial complex rather than a graph. Secondly it actually produces a nested family of simplicial complexes, which represent the data at different feature scales, suitable for calculating persistent homology [ELZ00, ZC04]. We find that in addition to the complexes being smaller, they also provide (in a precise sense) a better picture of the homology, with less noise, than the full scale constructions using all the data points. We illustrate the use of these complexes in qualitatively analyzing a data set of 3 × 3 pixel patches studied by David Mumford et al [LPM03].
467 citations
TL;DR: In this paper, a digest of simplicial and continuation methods for approximating fixed-points or zero-points of nonlinear finite-dimensional mappings is presented, where the following curves are implicitly defined, as for example, in the case of homotopies.
Abstract: This paper presents a digest of recently developed simplicial and continuation methods for approximating fixed-points or zero-points of nonlinear finite-dimensional mappings. Underlying the methods are algorithms for following curves which are implicitly defined, as for example, in the case of homotopies. The details of several algorithms are outlined sufficiently that they should be easily implemented. Applications of simplicial and continuation methods to nonlinear complementarily, location of critical points, location of multiple solutions and bifurcation are presented.
461 citations
TL;DR: This paper studies transformations of simplicial p.l. manifolds by elementary boundary operations (shellings and inverse shellings) and shows that a simplical p.
Abstract: Shellability of simplicial complexes has been a powerful concept in polyhedral theory, in pl topology and recently in connection with Cohen-Macaulay rings and toric varieties It is well known that all 2-spheres and all boundary complexes of convex polytopes are shellable, but the analogous theorem fails for general simplicial balls and spheres In this paper we study transformations of simplicial pl manifolds by elementary boundary operations (shellings and inverse shellings) As the main result we shall show that a simplicial pl manifold M can be transformed to any other simplical pl manifold M homeomorphic to M using these elementary operations The tools we need and related results are summarized In the last part we study generalized sheltings of totally strongly connected simplicial complexes and the effects on the face numbers of the complex
445 citations
TL;DR: A new complex Y* of finite element spaces is constructed on the barycentric refinement of the mesh which can be seen as a realization of the simplicial chain complex on the original (unrefined) mesh, such that the L 2 duality is non-degenerate on Y i × X 2-i.
Abstract: Given a two dimensional oriented surface equipped with a simplicial mesh, the standard lowest order finite element spaces provide a complex X* centered on Raviart-Thomas divergence conforming vector fields. It can be seen as a realization of the simplicial cochain complex. We construct a new complex Y* of finite element spaces on the barycentric refinement of the mesh which can be seen as a realization of the simplicial chain complex on the original (unrefined) mesh, such that the L 2 duality is non-degenerate on Y i × X 2-i for each i ∈ {0,1,2}. In particular Y 1 is a space of curl-conforming vector fields which is L 2 dual to Raviart-Thomas div-conforming elements. When interpreted in terms of differential forms, these two complexes provide a finite-dimensional analogue of Hodge duality.
330 citations
321 citations
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