Persistent homology

관련된 항목들

• 호몰로지

계산 리소스

• http://comptop.stanford.edu/programs/
• http://www.math.rutgers.edu/~vidit/perseus.html

사전 형태의 자료

• http://en.wikipedia.org/wiki/Topological_data_analysis

리뷰, 에세이, 강의노트

• What is Persistent Homology?

관련논문

• Otter, Nina, Mason A. Porter, Ulrike Tillmann, Peter Grindrod, and Heather A. Harrington. ‘A Roadmap for the Computation of Persistent Homology’. arXiv:1506.08903 [cs, Math], 29 June 2015. http://arxiv.org/abs/1506.08903.
• Lampret, Leon. ‘Tensor, Symmetric, Exterior, and Other Powers of Persistence Modules’. arXiv:1503.08266 [math], 28 March 2015. http://arxiv.org/abs/1503.08266.
• Jaquette, Jonathan, and Miroslav Kramár. “Rigorous Computation of Persistent Homology.” arXiv:1412.1805 [math], December 4, 2014. http://arxiv.org/abs/1412.1805.

노트

위키데이터

• ID : Q17099562

말뭉치

1. A method for the use of persistent homology in the statistical analysis of landmark-based shape data is given.^[1]
2. Three-dimensional landmark configurations are used as input for separate filtrations, persistent homology is performed, and persistence diagrams are obtained.^[1]
3. A three-dimensional landmark-based data set is used from a longitudinal orthodontic study, and the persistent homology method is able to distinguish clinically relevant treatment effects.^[1]
4. Persistent homology (PH), a tool from topological data analysis (TDA), serves as the basis for this work.^[2]
5. We use persistent homology, which allows us to study these features at varying scales.^[2]
6. 3 is an illustrative example that shows the steps of computing persistent homology on a simple three gland example.^[2]
7. Persistent homology tracks the changes in homology (i.e., the topological features that we are interested in) over a range of thresholds.^[2]
8. We use persistent homology, a recent technique from computational topology, to analyse four weighted collaboration networks.^[3]
9. We show that persistent homology corresponds to tangible features of the networks.^[3]
10. To do so we use persistent homology, a recent technique from computational topology.^[3]
11. The framework of persistent homology records structural properties and their changes for a whole range of thresholds.^[3]
12. One such tool is persistent homology, which provides a multiscale description of the homological features within a data set.^[4]
13. The alpha complex efficiently computes persistent homology of a point cloud X in Euclidean space when the dimension d is low.^[5]
14. A of X, relative persistent homology can be computed as the persistent homology of the relative Čech complex Č(X, A).^[5]
15. The aim of this note is to present a method for efficient computation of relative persistent homology in low dimensional Euclidean space.^[5]
16. We introduce the relative Delaunay-Čech complex DelČ(X, A) whose homology is the relative persistent homology.^[5]
17. Persistent homology is a multiscale method for analyzing the shape of sets and functions from point cloud data arising from an unknown distribution supported on those sets.^[6]
18. When the size of the sample is large, direct computation of the persistent homology is prohibitive due to the combinatorial nature of the existing algorithms.^[6]
19. We propose to compute the persistent homology of several subsamples of the data and then combine the resulting estimates.^[6]
20. %V 37 %W PMLR %X Persistent homology is a multiscale method for analyzing the shape of sets and functions from point cloud data arising from an unknown distribution supported on those sets.^[6]
21. In this paper, we propose to use the persistent homology to systematically study the osmolytes’ molecular aggregation and their hydrogen-bonding network from a global topological perspective.^[7]
22. Persistent homology is a tool that allows multi-scale analysis.^[8]
23. Persistent homology follows the rule that the oldest one survives.^[8]
24. Computing persistent homology is equivalent to reducing that matrix with the following rules.^[8]
25. There are numerous libraries that compute persistent homology and that are aimed at different public.^[8]
26. Persistent homology methods have found applications in the analysis of multiple types of biological data, particularly imaging data or data with a spatial and/or temporal component.^[9]
27. However, few studies have assessed the use of persistent homology for the analysis of gene expression data.^[9]
28. Persistent homology introduced by Edelsbrunner et al.^[9]
29. In persistent homology, ε varies, which allows the assessment of topological invariants of an object at different scales.^[9]
30. Using persistent homology and dynamical distances to analyze protein binding ,” Stat.^[10]
31. Persistent homology is a method for computing topological features of a space at different spatial resolutions.^[11]
32. Each of these two theorems allows us to uniquely represent the persistent homology of a filtered simplicial complex with a barcode or persistence diagram.^[11]
33. Persistent homology is stable in a precise sense, which provides robustness against noise.^[11]
34. Persistent homology is a homology theory adapted to a computational context, for instance, in analysis of large data sets.^[12]
35. The idea of persistent homology is to look for features that persist for some range of parameter values.^[12]
36. The math linking the many uses of persistent homology described here is deep, and not covered in this write-up.^[13]
37. This section looks at several dimensions of persistent homology with Euclidean data (e.g. sets of n-dimensional separate points).^[13]
38. 0d persistent homology in Euclidean space can best be explained as growing balls simultaneously around each point.^[13]
39. 0d persistent homology is tracking when these balls intersect.^[13]
40. In this section, we discuss the application of our localized persistent homology and localized weighted persistent homology in the study of DNA structures.^[14]
41. We study the barcodes for both LPH and LWPH models, i.e., one with traditional persistent homology and the other with the weighted persistent homology as in Eq.^[14]
42. In this section, we will give a brief introduction of persistent homology and weighted persistent homology.^[15]
43. The persistent homology, a tool from algebraic topology and computational topology, is proposed to characterize data “shape”64.^[15]
44. Persistent homology can be understood from three different aspects.^[15]
45. In persistent homology, the data is characterized by Betti numbers, including β 0 , β 1 , β 2 and higher order topological invariants93,94.^[15]
46. We define two filtered complexes with which we can calculate the persistent homology of a probability distribution.^[16]
47. Using statistical estimators for samples from certain families of distributions, we show that we can recover the persistent homology of the underlying distribution.^[16]
48. Thus, an increasing number of researchers is now approaching to persistent homology as a tool to be used in their research activity.^[17]
49. The first one is a web-based user-guide equipped with interactive examples to facilitate the comprehension of the notions at the basis of persistent homology.^[17]

소스

메타데이터

위키데이터

• ID : Q17099562

Spacy 패턴 목록

• [{'LOWER': 'persistent'}, {'LEMMA': 'homology'}]