Euler characteristic surfaces

Beltramo, Gabriele; Škraba, Primož; Andreeva, Rayna; Sarkar, Rik; Giarratano, Ylenia; Bernabéu, Miguel O.

doi:10.3934/fods.2021027

Cited by 6 publications

(1 citation statement)

References 54 publications

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“…the sublevel-sets constructible function associated to a continuous subanalytic map g : M → R on Z.Example 7.3. The function ϕ γ f is sometimes called Euler characteristic curve for V = R, and Euler characteristic surfaces for V = R 2 , see for instance[Bel+21].Example 7.4. Considering a subset Z ⊆ R d relatively compact subanalytic and locally closed, the Euler characteristic transform defined in[TMB14] is, for ξ ∈ V * and t ∈ R,ECT(Z)(ξ, t) = χ {x ∈ Z ; ξ; x ≤ t} = ϕ − ξ (t).If f : R d → R is continuous subanalytic and ξ ∈ R d , denote by (ξ, f ) : R d → R 2 the map defined by x → ( ξ; x , f (x)).…”

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confidence: 99%

Hybrid transforms of constructible functions

Lebovici

2021

Preprint

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We introduce a general definition of hybrid transforms for constructible functions. These are integral transforms combining Lebesgue integration and Euler calculus. Lebesgue integration gives access to well-studied kernels and to regularity results, while Euler calculus conveys topological information and allows for compatibility with operations on constructible functions. We conduct a systematic study of such transforms and introduce two new ones: the Euler-Fourier and Euler-Laplace transforms. We show that the first has a left inverse and that the second provides a satisfactory generalization of Govc and Hepworth's persistent magnitude to constructible sheaves, in particular to multi-parameter persistent modules. Finally, we prove index-theoretic formulae expressing a wide class of hybrid transforms as generalized Euler integral transforms. This yields expectation formulae for transforms of constructible functions associated to (sub)level-sets persistence of random Gaussian filtrations.

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confidence: 99%

Hybrid transforms of constructible functions

Lebovici

2021

Preprint

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An Invitation to the Euler Characteristic Transform

Munch

2024

The American Mathematical Monthly

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Euler characteristic curves and profiles: a stable shape invariant for big data problems

Dłotko,

Gurnari

2022

GigaScience

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Tools of topological data analysis provide stable summaries encapsulating the shape of the considered data. Persistent homology, the most standard and well-studied data summary, suffers a number of limitations; its computations are hard to distribute, and it is hard to generalize to multifiltrations and is computationally prohibitive for big datasets. In this article, we study the concept of Euler characteristics curves for 1-parameter filtrations and Euler characteristic profiles for multiparameter filtrations. While being a weaker invariant in one dimension, we show that Euler characteristic–based approaches do not possess some handicaps of persistent homology; we show efficient algorithms to compute them in a distributed way, their generalization to multifiltrations, and practical applicability for big data problems. In addition, we show that the Euler curves and profiles enjoy a certain type of stability, which makes them robust tools for data analysis. Lastly, to show their practical applicability, multiple use cases are considered.

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Euler characteristic surfaces

Cited by 6 publications

References 54 publications

Hybrid transforms of constructible functions

Hybrid transforms of constructible functions

An Invitation to the Euler Characteristic Transform

Euler characteristic curves and profiles: a stable shape invariant for big data problems

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