Teeradej Kittipassorn scite author profile

Teeradej Kittipassorn

5Publications

51Citation Statements Received

101Citation Statements Given

How they've been cited

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100

Affiliations

Chulalongkorn University, University of Memphis

Publications

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Generalized Majority Colourings of Digraphs

Girão¹,

Kittipassorn²,

Popielarz³

2017

Combinator. Probab. Comp.

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We almost completely solve a number of problems related to a concept called majority colouring recently studied by Kreutzer, Oum, Seymour, van der Zypen and Wood. They raised the problem of determining, for a natural number k, the smallest number m = m(k) such that every digraph can be coloured with m colours where each vertex has the same colour as at most a 1/k proportion of its out-neighbours. We show that m(k) ∈ {2k − 1,2k}. We also prove a result supporting the conjecture that m(2) = 3. Moreover, we prove similar results for a more general concept called majority choosability.

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On the Existence of Zero-Sum Perfect Matchings of Complete Graphs

Kittipassorn¹,

Sinsap²

2020

Preprint

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Separating path systems

Falgas–Ravry

Kittipassorn

Korándi

et al. 2014

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Abstract. We study separating systems of the edges of a graph where each member of the separating system is a path. We conjecture that every n-vertex graph admits a separating path system of size O(n) and prove this in certain interesting special cases. In particular, we establish this conjecture for random graphs and graphs with linear minimum degree. We also obtain tight bounds on the size of a minimal separating path system in the case of trees.

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Long cycles in Hamiltonian graphs

2018

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Frustrated triangles

Kittipassorn

Mészáros²

2015

Discrete Mathematics

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a b s t r a c tA triple of vertices in a graph is a frustrated triangle if it induces an odd number of edges.We study the set F n ⊂ [0,  n 3  ] of possible number of frustrated triangles f (G) in a graph G on n vertices. We prove that about two thirds of the numbers in [0, n 3/2 ] cannot appear in F n , and we characterise the graphs G with f (G) ∈ [0, n 3/2]. More precisely, our main result is that, for each n ≥ 3, F n contains two interlacing sequences 0and only if G can be obtained from a complete bipartite graph by flipping exactly t edges/nonedges. On the other hand, we show, for all n sufficiently large, that if m, then m ∈ F n where f (n) is asymptotically best possible with f (n) ∼ n 3/2 for n even and f (n) ∼ √ 2n 3/2 for n odd. Furthermore, we determine the graphs with the minimum number of frustrated triangles amongst those with n vertices and e ≤ n 2 /4 edges.

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