Flip colouring of graphs
Abstract: It is proved that for integers $b, r$ such that $3 \leq b < r \leq \binom{b+1}{2} - 1$, there exists a red/blue edge-colored graph such that the red degree of every vertex is $r$, the blue degree of every vertex is $b$, yet in the closed neighborhood of every vertex there are more blue edges than red edges. The upper bound $r \le \binom{b+1}{2}-1$ is best possible for any $b \ge 3$. We further extend this theorem to more than two colours, and to larger neighbourhoods. A useful result required in some of our proofs, of independent interest, is that for integers $r,t$ such that $0 \leq t \le \frac{r2}{2} - 5r{3/2}$, there exists an $r$-regular graph in which each open neighborhood induces precisely $t$ edges. Several explicit constructions are introduced and relationships with constant linked graphs, $(r,b)$-regular graphs and vertex transitive graphs are revealed.
- M.A. Abdullah and M. Draief. Global majority consensus by local majority polling on graphs of a given degree sequence. Discrete Applied Mathematics, 180:1–10, 2015.
- Which trees are link graphs? Journal of Combinatorial Theory, Series B, 29(3):277–292, 1980.
- The feasibility problem for line graphs. Discrete Applied Mathematics, 324:167–180, 2023.
- Y. Caro and R. Yuster. The effect of local majority on global majority in connected graphs. Graphs and Combinatorics, 34(6):1469–1487, 2018.
- P Catlin. Embedding subgraphs under extremal degree conditions. PhD thesis, 1976.
- P.l Chebotarev and D. Peleg. The power of small coalitions under two-tier majority on regular graphs. Discrete Applied Mathematics, 340:239–258, 2023.
- Parameters for certain locally-regular graphs. arXiv preprint arXiv:2112.00276, 2021.
- X. Dahan. Regular graphs of large girth and arbitrary degree. Combinatorica, 34(4):407–426, aug 2014.
- P. Erdős. Graph theory and probability. Canadian Journal of Mathematics, 11:34–38, 1959.
- G. Exoo and R. Jajcay. Dynamic cage survey. The Electronic Journal of Combinatorics, DS16:48 p., 2008.
- Do local majorities force a global majority? Discrete Mathematics, 61(2):165–179, 1986.
- Z. Füredi and M. Simonovits. The history of degenerate (bipartite) extremal graph problems. In Erdős centennial, pages 169–264. Springer, 2013.
- A. Hajnal and P. Erdős. Ramsey type theorems. Discrete Applied Mathematics, 25:37–52, 1989.
- J. I. Hall. Graphs with constant link and small degree or order. Journal of Graph Theory, 9(3):419–444, 1985.
- Small locally nk2𝑛subscript𝑘2nk_{2}italic_n italic_k start_POSTSUBSCRIPT 2 end_POSTSUBSCRIPT graphs. Ars Comb., 102:385–391, 2011.
- F. Lazebnik and V. A. Ustimenko. Explicit construction of graphs with an arbitrary large girth and of large size. Discrete Applied Mathematics, 60(1):275–284, 1995.
- The “majority illusion” in social networks. PloS one, 11(2):e0147617, 2016.
- P. Lisonêk. Local and global majorities revisited. Discrete Mathematics, 146(1):153–158, 1995.
- Bruce Reznick. The sum of the squares of the parts of a partition, and some related questions. Journal of Number Theory, 33(2):199–208, 1989.
- N. Sauer and J. Spencer. Edge disjoint placement of graphs. Journal of Combinatorial Theory, Series B, 25(3):295–302, 1978.
- P. Turán. On an external problem in graph theory. Mat. Fiz. Lapok, 48:436–452, 1941.
- P. Turán. On the theory of graphs. In Colloquium Mathematicum, volume 1(3), pages 19–30, 1954.
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