On sequences covering all rainbow k-progressions

Leonardo Alese; Stefan Lendl; Paul Tabatabai

doi:http://dx.doi.org/10.4310/JOC.2018.v9.n4.a9

On sequences covering all rainbow k-progressions

Leonardo Alese, Stefan Lendl, Paul Tabatabai

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

Let $\ac(n,k)$ denote the smallest positive integer
with the property that there exists an $n$-colouring $f$ of
$\{1,\dots,\ac(n,k)\}$ such that for every $k$-subset
$R \subseteq \{1, \dots, n\}$ there exists an (arithmetic)
$k$\nobreakdash-progression $A$ in $\{1,\dots,\ac(n,k)\}$
with $\{f(a) : a \in A\} = R$.

Determining the behaviour of the function $\ac(n,k)$
is a previously unstudied problem.
We use the first moment method to give
an asymptotic upper bound for $\ac(n,k)$ for the case $k = o(n^{1/{5}})$.

Originalsprache	englisch
Fachzeitschrift	Journal of Combinatorics
Jahrgang	9
Ausgabenummer	4
DOIs	https://doi.org/10.4310/JOC.2018.v9.n4.a9
Publikationsstatus	Veröffentlicht - 2018

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https://arxiv.org/abs/1802.03285Lizenz: Andere

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title = "On sequences covering all rainbow k-progressions",

abstract = "Let $\ac(n,k)$ denote the smallest positive integer with the property that there exists an $n$-colouring $f$ of$\{1,\dots,\ac(n,k)\}$ such that for every $k$-subset$R \subseteq \{1, \dots, n\}$ there exists an (arithmetic)$k$\nobreakdash-progression $A$ in $\{1,\dots,\ac(n,k)\}$with $\{f(a) : a \in A\} = R$.Determining the behaviour of the function $\ac(n,k)$is a previously unstudied problem.We use the first moment method to givean asymptotic upper bound for $\ac(n,k)$ for the case $k = o(n^{1/{5}})$.",

keywords = "rainbow arithmetic progression, colouring, covering, arithmetic progression, probabilistic method, universal sequence",

author = "Leonardo Alese and Stefan Lendl and Paul Tabatabai",

note = "pp. 739-745",

year = "2018",

doi = "http://dx.doi.org/10.4310/JOC.2018.v9.n4.a9",

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TY - JOUR

T1 - On sequences covering all rainbow k-progressions

AU - Alese, Leonardo

AU - Lendl, Stefan

AU - Tabatabai, Paul

N1 - pp. 739-745

PY - 2018

Y1 - 2018

N2 - Let $\ac(n,k)$ denote the smallest positive integer with the property that there exists an $n$-colouring $f$ of$\{1,\dots,\ac(n,k)\}$ such that for every $k$-subset$R \subseteq \{1, \dots, n\}$ there exists an (arithmetic)$k$\nobreakdash-progression $A$ in $\{1,\dots,\ac(n,k)\}$with $\{f(a) : a \in A\} = R$.Determining the behaviour of the function $\ac(n,k)$is a previously unstudied problem.We use the first moment method to givean asymptotic upper bound for $\ac(n,k)$ for the case $k = o(n^{1/{5}})$.

AB - Let $\ac(n,k)$ denote the smallest positive integer with the property that there exists an $n$-colouring $f$ of$\{1,\dots,\ac(n,k)\}$ such that for every $k$-subset$R \subseteq \{1, \dots, n\}$ there exists an (arithmetic)$k$\nobreakdash-progression $A$ in $\{1,\dots,\ac(n,k)\}$with $\{f(a) : a \in A\} = R$.Determining the behaviour of the function $\ac(n,k)$is a previously unstudied problem.We use the first moment method to givean asymptotic upper bound for $\ac(n,k)$ for the case $k = o(n^{1/{5}})$.

KW - rainbow arithmetic progression

KW - colouring

KW - covering

KW - arithmetic progression

KW - probabilistic method

KW - universal sequence

U2 - http://dx.doi.org/10.4310/JOC.2018.v9.n4.a9

DO - http://dx.doi.org/10.4310/JOC.2018.v9.n4.a9

M3 - Article

SN - 2150-959X

VL - 9

JO - Journal of Combinatorics

JF - Journal of Combinatorics

IS - 4

ER -

On sequences covering all rainbow k-progressions

Abstract

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