Szemerédi's Regularity Lemma for Matrices and Sparse Graphs

ALEXANDER SCOTT

doi:10.1017/S0963548310000490

Abstract

Szemerédi's Regularity Lemma is an important tool for analysing the structure of dense graphs. There are versions of the Regularity Lemma for sparse graphs, but these only apply when the graph satisfies some local density condition. In this paper, we prove a sparse Regularity Lemma that holds for all graphs. More generally, we give a Regularity Lemma that holds for arbitrary real matrices.

References

[1]Bollobás, B. and Riordan, O. (2005) Metrics for sparse graphs. In Surveys in Combinatorics 2009, Vol. 365 of London Mathematical Society Lecture Notes, Cambridge University Press, pp. 211–287.Google Scholar

[2]Gerke, S. and Steger, A. (2005) The sparse regularity lemma and its applications. In Surveys in Combinatorics 2005, Vol. 327 of London Mathematical Society Lecture Notes, Cambridge University Press, pp. 227–258.CrossRef Google Scholar

[3]Kohayakawa, Y. (1997) Szemerédi's regularity lemma for sparse graphs. In Foundations of Computational Mathematics (Rio de Janeiro), Springer, pp. 216–230.CrossRef Google Scholar

[4]Kohayakawa, Y. and Rödl, V. (2003) Szemerédi's regularity lemma and quasi-randomness. In Recent Advances in Algorithms and Combinatorics, Vol. 11 of CMS Books Math./Ouvrages Math. SMC, Springer, pp. 289–351.Google Scholar

[5]Komlós, J. and Simonovits, M. (1996) Szemerédi's regularity lemma and its applications in graph theory. In Combinatorics: Paul ErdHős is Eighty, Vol. 2 (Keszthely 1993), Vol. 2 of Bolyai Society Mathematical Studies, János Bolyai Mathematical Society, pp. 295–352.Google Scholar

[6]Łuczak, T. (2000) On triangle-free random graphs. Random Struct. Alg. 16 260–276.3.0.CO;2-Q>CrossRef Google Scholar

[7]Szemerédi, E. (1978) Regular partitions of graphs. In Problèmes Combinatoires et Théorie des Graphes (Colloq. Internat. CNRS, Orsay 1976), CNRS, pp. 399–401.Google Scholar

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Conlon, David Fox, Jacob and Zhao, Yufei 2015. A relative Szemerédi theorem. Geometric and Functional Analysis, Vol. 25, Issue. 3, p. 733.

Verstraëte, Jacques 2016. Recent Trends in Combinatorics. Vol. 159, Issue. , p. 83.

Regts, Guus 2016. Regularity lemmas in a Banach space setting. European Journal of Combinatorics, Vol. 51, Issue. , p. 347.

Pelillo, Marcello Elezi, Ismail and Fiorucci, Marco 2017. Revealing structure in large graphs: Szemerédi’s regularity lemma and its use in pattern recognition. Pattern Recognition Letters, Vol. 87, Issue. , p. 4.

Dudek, Andrzej and Prałat, Paweł 2017. On some Multicolor Ramsey Properties of Random Graphs. SIAM Journal on Discrete Mathematics, Vol. 31, Issue. 3, p. 2079.

Böttcher, Julia 2017. Surveys in Combinatorics 2017. p. 87.

Hladký, Jan Komlós, János Piguet, Diana Simonovits, Miklós Stein, Maya and Szemerédi, Endre 2017. The Approximate Loebl--Komlós--Sós Conjecture I: The Sparse Decomposition. SIAM Journal on Discrete Mathematics, Vol. 31, Issue. 2, p. 945.

Škorić, Nemanja Steger, Angelika and Trujić, Miloš 2018. Local resilience of an almost spanning k‐cycle in random graphs. Random Structures & Algorithms, Vol. 53, Issue. 4, p. 728.

Doležal, Martin and Hladký, Jan 2019. Cut-norm and entropy minimization over weak⁎ limits. Journal of Combinatorial Theory, Series B, Vol. 137, Issue. , p. 232.

Kohayakawa, Yoshiharu Retter, Troy and Rödl, Vojtěch 2019. The size Ramsey number of short subdivisions of bounded degree graphs. Random Structures & Algorithms, Vol. 54, Issue. 2, p. 304.

Tait, Michael and Timmons, Craig 2019. The Zarankiewicz problem in 3‐partite graphs. Journal of Combinatorial Designs, Vol. 27, Issue. 6, p. 391.

Borgs, Christian Chayes, Jennifer Cohn, Henry and Zhao, Yufei 2019. An 𝐿^{𝑝} theory of sparse graph convergence I: Limits, sparse random graph models, and power law distributions. Transactions of the American Mathematical Society, Vol. 372, Issue. 5, p. 3019.

Simonovits, Miklós and Szemerédi, Endre 2019. Building Bridges II. Vol. 28, Issue. , p. 445.

Kunszenti-Kovács, Dávid Lovász, László and Szegedy, Balázs 2019. Measures on the square as sparse graph limits. Journal of Combinatorial Theory, Series B, Vol. 138, Issue. , p. 1.

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Szemerédi's Regularity Lemma for Matrices and Sparse Graphs

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Szemerédi's Regularity Lemma for Matrices and Sparse Graphs

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