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Main Author: Zucal, Giulio
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2308.00226
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author Zucal, Giulio
author_facet Zucal, Giulio
contents Action convergence provides a limit theory for linear bounded operators $A_n:L^{\infty}(Ω_n)\longrightarrow L^1(Ω_n)$ where $Ω_n$ are potentially different probability spaces. This notion of convergence emerged in graph limits theory as it unifies and generalizes many notions of graph limits. We generalize the theory of action convergence to sequences of multi-linear bounded operators $A_n:L^{\infty}(Ω_n)\times \ldots \times L^{\infty}(Ω_n)\longrightarrow L^1(Ω_n)$. Similarly to the linear case, we obtain that for a uniformly bounded (under an appropriate norm) sequence of multi-linear operators, there exists an action convergent subsequence. Additionally, we explain how to associate different types of multi-linear operators to a tensor and we study the different notions of convergence that we obtain for tensors and in particular for adjacency tensors of hypergraphs. We obtain several hypergraphs convergence notions and we link these with the hierarchy of notions of quasirandomness for hypergraph sequences. This convergence also covers sparse and inhomogeneous hypergraph sequences and it preserves many properties of adjacency tensors of hypergraphs. Moreover, we explain how to obtain a meaningful convergence for sequences of non-uniform hypergraphs and, therefore, also for simplicial complexes. Additionally, we highlight many connections with the theory of dense uniform hypergraph limits (hypergraphons) and we conjecture the equivalence of this theory with a modification of multi-linear action convergence.
format Preprint
id arxiv_https___arxiv_org_abs_2308_00226
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Action convergence of general hypergraphs and tensors
Zucal, Giulio
Combinatorics
Functional Analysis
Probability
05C65
G.2.2; G.2.1; G.3
Action convergence provides a limit theory for linear bounded operators $A_n:L^{\infty}(Ω_n)\longrightarrow L^1(Ω_n)$ where $Ω_n$ are potentially different probability spaces. This notion of convergence emerged in graph limits theory as it unifies and generalizes many notions of graph limits. We generalize the theory of action convergence to sequences of multi-linear bounded operators $A_n:L^{\infty}(Ω_n)\times \ldots \times L^{\infty}(Ω_n)\longrightarrow L^1(Ω_n)$. Similarly to the linear case, we obtain that for a uniformly bounded (under an appropriate norm) sequence of multi-linear operators, there exists an action convergent subsequence. Additionally, we explain how to associate different types of multi-linear operators to a tensor and we study the different notions of convergence that we obtain for tensors and in particular for adjacency tensors of hypergraphs. We obtain several hypergraphs convergence notions and we link these with the hierarchy of notions of quasirandomness for hypergraph sequences. This convergence also covers sparse and inhomogeneous hypergraph sequences and it preserves many properties of adjacency tensors of hypergraphs. Moreover, we explain how to obtain a meaningful convergence for sequences of non-uniform hypergraphs and, therefore, also for simplicial complexes. Additionally, we highlight many connections with the theory of dense uniform hypergraph limits (hypergraphons) and we conjecture the equivalence of this theory with a modification of multi-linear action convergence.
title Action convergence of general hypergraphs and tensors
topic Combinatorics
Functional Analysis
Probability
05C65
G.2.2; G.2.1; G.3
url https://arxiv.org/abs/2308.00226