Viktor Harangi scite author profile

Abstract. We prove that every 3-regular, n-vertex simple graph with sufficiently large girth contains an independent set of size at least 0.4361n. (The best known bound is 0.4352n.) In fact, computer simulation suggests that the bound our method provides is about 0.438n.Our method uses invariant Gaussian processes on the d-regular tree that satisfy the eigenvector equation at each vertex for a certain eigenvalue λ. We show that such processes can be approximated by i.i.d. factors provided that |λ| ≤ 2 √ d − 1. We then use these approximations for λ = −2 √ d − 1 to produce factor of i.i.d. independent sets on regular trees.

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Independence ratio and random eigenvectors in transitive graphs

Harangi¹,

Virág²

2015

Ann. Probab.

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A theorem of Hoffman gives an upper bound on the independence ratio of regular graphs in terms of the minimum λmin of the spectrum of the adjacency matrix. To complement this result we use random eigenvectors to gain lower bounds in the vertex-transitive case. For example, we prove that the independence ratio of a 3-regular transitive graph is at leastThe same bound holds for infinite transitive graphs: we construct factor of i.i.d. independent sets for which the probability that any given vertex is in the set is at least q − o(1).We also show that the set of the distributions of factor of i.i.d. processes is not closed w.r.t. the weak topology provided that the spectrum of the graph is uncountable.

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How large dimension guarantees a given angle?

et al. 2012

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Correlation Bounds for Distant Parts of Factor of IID Processes

Backhausz¹,

Gerencsér²,

Harangi³

et al. 2017

Combinator. Probab. Comp.

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We study factor of i.i.d. processes on the d-regular tree for d 3. We show that if such a process is restricted to two distant connected subgraphs of the tree, then the two parts are basically uncorrelated. More precisely, any functions of the two parts have correlation at most k(d − 1)/( √ d − 1) k , where k denotes the distance between the subgraphs. This result can be considered as a quantitative version of the fact that factor of i.i.d. processes have trivial 1-ended tails.

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Viktor Harangi

Invariant Gaussian processes and independent sets on regular graphs of large girth

Independence ratio and random eigenvectors in transitive graphs

How large dimension guarantees a given angle?

Correlation Bounds for Distant Parts of Factor of IID Processes

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