Thomas Rast scite author profile

Thomas Rast

3Publications

15Citation Statements Received

172Citation Statements Given

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170

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ETH Zurich, Continental (Germany)

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Coloring random graphs online without creating monochromatic subgraphs

Mütze¹,

Rast²,

Spöhel³

2011

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Abstract. Consider the following random process: The vertices of a binomial random graph G n,p are revealed one by one, and at each step only the edges induced by the already revealed vertices are visible. Our goal is to assign to each vertex one from a fixed number r of available colors immediately and irrevocably without creating a monochromatic copy of some fixed graph F in the process. Our first main result is that for any F and r, the threshold function for this problem is given by p 0 (F, r, n) = n −1/m * 1 (F,r) , where m * 1 (F, r) denotes the so-called online vertex-Ramsey density of F and r. This parameter is defined via a purely deterministic two-player game, in which the random process is replaced by an adversary that is subject to certain restrictions inherited from the random setting. Our second main result states that for any F and r, the online vertex-Ramsey density m * 1 (F, r) is a computable rational number. Our lower bound proof is algorithmic, i.e., we obtain polynomial-time online algorithms that succeed in coloring G n,p as desired with probability 1 − o(1) for any p(n) = o(n −1/m * 1 (F,r) ).

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Der Seitenwandtorsions-Sensor SWT

Becherer

Oehler

Rast

2000

ATZ Automobiltech Z

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Coloring random graphs online without creating monochromatic subgraphs

Mütze

Rast

Spöhel

2012

Random Struct Algorithms

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Consider the following random process: The vertices of a binomial random graph Gn,p are revealed one by one, and at each step only the edges induced by the already revealed vertices are visible. Our goal is to assign to each vertex one from a fixed number r of available colors immediately and irrevocably without creating a monochromatic copy of some fixed graph F in the process. Our first main result is that for any F and r, the threshold function for this problem is given by p0(F,r,n) = n‐1/m*1(F,r), where m*1(F,r) denotes the so‐called online vertex‐Ramsey density of F and r. This parameter is defined via a purely deterministic two‐player game, in which the random process is replaced by an adversary that is subject to certain restrictions inherited from the random setting. Our second main result states that for any F and r, the online vertex‐Ramsey density m*1(F,r) is a computable rational number. Our lower bound proof is algorithmic, i.e., we obtain polynomial‐time online algorithms that succeed in coloring Gn,p as desired with probability 1 ‐ o(1) for any p(n) = o(n‐1/m*1(F,r)). © 2012 Wiley Periodicals, Inc. Random Struct. Alg. 44, 419–464, 2014

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Thomas Rast

Coloring random graphs online without creating monochromatic subgraphs

Der Seitenwandtorsions-Sensor SWT

Coloring random graphs online without creating monochromatic subgraphs

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