ON MULTICOLOR RAMSEY NUMBERS AND SUBSET COLORING OF HYPERGRAPHS

Bruno Jartoux; Chaya Keller; Shakhar Smorodinsky; Yelena Yuditsky

doi:10.1137/21M1462003

ON MULTICOLOR RAMSEY NUMBERS AND SUBSET COLORING OF HYPERGRAPHS

Bruno Jartoux
, Chaya Keller
, Shakhar Smorodinsky
, Yelena Yuditsky

Department of Computer Science

نتاج البحث: نشر في مجلة › مقالة › مراجعة النظراء

ملخص

For n ≥ s > r ≥ 1 and k ≥ 2, write n → (s)r k if every hyperedge coloring with k colors of the complete r-uniform hypergraph on n vertices has a monochromatic subset of size s. Improving upon previous results by M. Axenovich, A. Gyárfás, H. Liu, and D. Mubayi [Discrete Math., 322 (2014), pp. 69-77] and P. Erdos, A. Hajnal, A. Máté, and R. Rado, [Combinatorial set theory: Partition Relations for Cardinals, Elsevier, Amsterdam, 1984] we show that if r ≥ 3 and n → (s)r k, then 2n → (s+1)r+1 k+3. This improves some of the known lower bounds on multicolor hypergraph Ramsey numbers. Given a hypergraph H = (V,E), we consider the Ramsey-like problem of coloring all r-subsets of V such that no hyperedge of size ≥ r + 1 is monochromatic. We provide upper and lower bounds on the number of colors necessary in terms of the chromatic number χ(H). In particular we show that this number is O(log(r-1)(rχ (H))+r), where logy is the log function applied y times.

اللغة الأصلية	الإنجليزيّة
الصفحات (من إلى)	1848-1860
عدد الصفحات	13
دورية	SIAM Journal on Discrete Mathematics
مستوى الصوت	36
رقم الإصدار	3
المعرِّفات الرقمية للأشياء	https://doi.org/10.1137/21M1462003
حالة النشر	نُشِر - 2022

الوصول إلى المستند

10.1137/21M1462003

الملفات والروابط الأخرى

Link to publication in Scopus

قم بذكر هذا

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title = "ON MULTICOLOR RAMSEY NUMBERS AND SUBSET COLORING OF HYPERGRAPHS",

abstract = "For n ≥ s > r ≥ 1 and k ≥ 2, write n → (s)r k if every hyperedge coloring with k colors of the complete r-uniform hypergraph on n vertices has a monochromatic subset of size s. Improving upon previous results by M. Axenovich, A. Gy{\'a}rf{\'a}s, H. Liu, and D. Mubayi [Discrete Math., 322 (2014), pp. 69-77] and P. Erdos, A. Hajnal, A. M{\'a}t{\'e}, and R. Rado, [Combinatorial set theory: Partition Relations for Cardinals, Elsevier, Amsterdam, 1984] we show that if r ≥ 3 and n → (s)r k, then 2n → (s+1)r+1 k+3. This improves some of the known lower bounds on multicolor hypergraph Ramsey numbers. Given a hypergraph H = (V,E), we consider the Ramsey-like problem of coloring all r-subsets of V such that no hyperedge of size ≥ r + 1 is monochromatic. We provide upper and lower bounds on the number of colors necessary in terms of the chromatic number χ(H). In particular we show that this number is O(log(r-1)(rχ (H))+r), where logy is the log function applied y times.",

keywords = "hypergraph Ramsey numbers, multicolor Ramsey numbers, subset coloring",

author = "Bruno Jartoux and Chaya Keller and Shakhar Smorodinsky and Yelena Yuditsky",

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year = "2022",

doi = "10.1137/21M1462003",

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N2 - For n ≥ s > r ≥ 1 and k ≥ 2, write n → (s)r k if every hyperedge coloring with k colors of the complete r-uniform hypergraph on n vertices has a monochromatic subset of size s. Improving upon previous results by M. Axenovich, A. Gyárfás, H. Liu, and D. Mubayi [Discrete Math., 322 (2014), pp. 69-77] and P. Erdos, A. Hajnal, A. Máté, and R. Rado, [Combinatorial set theory: Partition Relations for Cardinals, Elsevier, Amsterdam, 1984] we show that if r ≥ 3 and n → (s)r k, then 2n → (s+1)r+1 k+3. This improves some of the known lower bounds on multicolor hypergraph Ramsey numbers. Given a hypergraph H = (V,E), we consider the Ramsey-like problem of coloring all r-subsets of V such that no hyperedge of size ≥ r + 1 is monochromatic. We provide upper and lower bounds on the number of colors necessary in terms of the chromatic number χ(H). In particular we show that this number is O(log(r-1)(rχ (H))+r), where logy is the log function applied y times.

AB - For n ≥ s > r ≥ 1 and k ≥ 2, write n → (s)r k if every hyperedge coloring with k colors of the complete r-uniform hypergraph on n vertices has a monochromatic subset of size s. Improving upon previous results by M. Axenovich, A. Gyárfás, H. Liu, and D. Mubayi [Discrete Math., 322 (2014), pp. 69-77] and P. Erdos, A. Hajnal, A. Máté, and R. Rado, [Combinatorial set theory: Partition Relations for Cardinals, Elsevier, Amsterdam, 1984] we show that if r ≥ 3 and n → (s)r k, then 2n → (s+1)r+1 k+3. This improves some of the known lower bounds on multicolor hypergraph Ramsey numbers. Given a hypergraph H = (V,E), we consider the Ramsey-like problem of coloring all r-subsets of V such that no hyperedge of size ≥ r + 1 is monochromatic. We provide upper and lower bounds on the number of colors necessary in terms of the chromatic number χ(H). In particular we show that this number is O(log(r-1)(rχ (H))+r), where logy is the log function applied y times.

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KW - subset coloring

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ON MULTICOLOR RAMSEY NUMBERS AND SUBSET COLORING OF HYPERGRAPHS

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