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COMPGEOM
2006
ACM

Vines and vineyards by updating persistence in linear time

14 years 6 months ago
Vines and vineyards by updating persistence in linear time
Persistent homology is the mathematical core of recent work on shape, including reconstruction, recognition, and matching. Its pertinent information is encapsulated by a pairing of the critical values of a function, visualized by points forming a diagram in the plane. The original algorithm in [10] computes the pairs from an ordering of the simplices in a triangulation and takes worst-case time cubic in the number of simplices. The main result of this paper is an algorithm that maintains the pairing in worst-case linear time per transposition in the ordering. A side-effect of the algorithm’s analysis is an elementary proof of the stability of persistence diagrams [7] in the special case of piecewise-linear functions. We use the algorithm to compute 1-parameter families of diagrams which we apply to the study of protein folding trajectories. Categories and Subject Descriptors F.2.2 [Analysis of Algorithms and Problem Complexity]: Nonnumerical Algorithms and Problems—Geometrical pro...
David Cohen-Steiner, Herbert Edelsbrunner, Dmitriy
Added 13 Jun 2010
Updated 13 Jun 2010
Type Conference
Year 2006
Where COMPGEOM
Authors David Cohen-Steiner, Herbert Edelsbrunner, Dmitriy Morozov
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