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On-line list colouring of graphs Xuding Zhu Zhejiang Normal University.

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Presentation on theme: "On-line list colouring of graphs Xuding Zhu Zhejiang Normal University."— Presentation transcript:

1 On-line list colouring of graphs Xuding Zhu Zhejiang Normal University

2 Suppose G is a graph A list assignment L assigns to each vertex x a set L(x) of permissible colours. An L-colouring h of G assigns to each vertex x a colour such that for every edge xy choice number

3 Given a vertex x, L(x) tells us which colours are permissible. Alternately, given a colour i, one can ask which vertices have i as a permissible colour. A list assignment L can be given as Given a colour i, is the set of vertices having i as a permissible colour. An L-colouring is a family of independent subsets and

4 on-line f-list colouring game on G played by Alice and Bob At round i, Alice choose a set of uncoloured vertices. is the set of vertices which has colour i as a permissible colour. is the number of permissible colours for x Bob chooses an independent subset of and colour vertices in by colour i. Alice wins the game if there is a vertex x, which has been given f(x) permissible colours and remains uncoloured. Otherwise, eventually all vertices are coloured and Bob wins the game.

5 G is on-line f-choosable if Bob has a winning strategy for the on-line f-list colouring game. G is on-line k-choosable if G is on-line f-choosable for f(x)=k for every x. The on-line choice number of G is the minimum k for which G is on-line k-choosable.

6 Theorem [Erdos-Rubin-Taylor (1979)] is 2-choosable. is not on-line 2-choosable

7 Alice wins the game

8 Question: Can the difference be arbitrarily large ? Question: Can the ratio be arbitrarily large ?

9 Most upper bounds for choice number are also upper bounds for on-line choice number. Currently used method in proving upper bounds for choice number Kernel method InductionSome works for on-line choice number, Combinatorial Nullstellensatz Theorem [Schauz,2009] For planar G, Theorem [Chung-Z,2011] For planar G, triangle free + no 4-cycle adjacent to a 4-cycle or a 5-cycle, Theorem [Schauz,2009] Upper bounds for ch(G) proved by Combinatorial nullstellensatz works for on-line choice number

10 Theorem [Schauz,2009] Upper bounds for ch(G) proved by Combinatorial nullstellensatz works for on-line choice number Theorem [Schauz,2009] If G has an orientation D with then G is on-line The proof is by induction (no polynomial is involved).

11 Probabilistic methodDoes not work for on-line choice number Theorem [Alon, 1992] The proof is by probabilistic method Theorem[Z,2009] Proof: If G is bipartite and has n vertices, then

12 If a vertex x has permissible colours, Bob will be able to colour it. Bob colours, double the weight of each vertex in A B Initially, each vertex x has weight w(x)=1 Assume Alice has given set If The total weight of uncoloured vertices is not increased. If a vertex is given a permissible colour but is not coloured by that colour, then it weight doubles. If a vertex x has given k permissible colours, but remains uncoloured, then

13 A graph G is chromatic choosable if Conjecture: Line graphs are chromatic choosable. Conjecture: Claw-free graphs are chromatic choosable. Conjecture: Total graphs are chromatic choosable. Conjecture [Ohba] Graphs G with are chromatic choosable. Conjecture: For any G, for any k > 1, is chromatic choosable. Theorem [Noel-Reed-Wu]

14 On-line version of Ohba Conjecture: Graphs G with are on-line chromatic choosable. 33 33 333 33|33|333 NOT TRUE

15 On-line version of Ohba Conjecture: Graphs G with are on-line chromatic choosable. 33 33 333 33|33|333 Alice’s move

16 On-line version of Ohba Conjecture: Graphs G with are on-line chromatic choosable. 33 33 333 33|33|333 Alice’s move 3|23|233 23|23|33 Bob’s (2 possible) moves

17 On-line version of Ohba Conjecture: Graphs G with are on-line chromatic choosable. 33 33 333 33|33|333 Alice’s move 3|23|233 23|23|33 Bob’s (2 possible) moves 13|222 2|3|222

18 On-line version of Ohba Conjecture: Graphs G with are on-line chromatic choosable. 33 33 333 33|33|333 Alice’s move 3|23|233 23|23|33 Bob’s (2 possible) moves 13|222 2|3|222 3|111

19 On-line version of Ohba Conjecture: Graphs G with are on-line chromatic choosable. 33 33 333 33|33|333 Alice’s move 3|23|233 23|23|33 Bob’s (2 possible) moves 13|222 2|3|222 3|111 2|112

20 On-line version of Ohba Conjecture: Graphs G with are on-line chromatic choosable. 33 33 333 33|33|333 Alice’s move 3|23|233 23|23|33 13|222 2|3|222 3|111 2|112 3|13|22 2|3|11

21 Theorem [Kim-Kwon-Liu-Z,2012] For n > 1, is not on-line -choosable

22 On-line version of Ohba Conjecture: Graphs G with are on-line chromatic choosable.

23 Theorem [Erdos-Rubin-Taylor (1979)] is chromatic choosable. Proof Assume each vertex is given n permissible colours. then colour them by a common colour use induction to colour the rest. If for some k, have a common permissible colour and

24 Assume no partite set has a common permissible colour Build a bipartite graph colours By Hall’s theorem, there is a matching that covers all the vertices of V V C The proof does not work for on-line list colouring

25 On-line version of Ohba Conjecture: Graphs G with are on-line chromatic choosable. Question: is on-line n-choosable ?

26 Question:Theorem [Huang-Wong-Z,2010] is on-line n-choosable. Proof Combinatorial Nullstellensatz An explicit winning strategy for Bob ( Kim-Kwon-Liu-Z, 2012)

27 Theorem [Kim-Kwon-Liu-Z, 2012] G: complete multipartite graph with partite sets satisfying the following Then (G,f) is feasible, i.e., G is on-line f-choosable. is on-line n-choosable.

28 Alice’s choice Bob’s choice After this round, G changed and f changed. Need to prove:new (G,f) still satisfies the condition

29 Alice’s choice

30 Bob colours v

31 Alice’s choice

32 Bob colours v

33 Theorem [Kim-Kwon-Liu-Z, 2012] G: complete multipartite graph with partite sets satisfying the following Then (G,f) is feasible, i.e., G is on-line f-choosable. is on-line n-choosable.

34 Theorem [Kozik-Micek-Z, 2012] G: complete multipartite graph with partite sets satisfying the following Then (G,f) is feasible.

35 On-line version of Ohba Conjecture: Graphs G with are on-line chromatic choosable. Conjecture holds for graphs with independence number 3

36 Open Problems Can the difference ch^{OL}-ch be arbitrarily big? On-line Ohba conjecture true?

37 Nine Dragon Tree Thank you

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