Let G be an outerplane graph with maximum degree A and the entire chromatic number Xvef(G). This paper proves that if △ ≥6, then △+ 1≤Xvef(G)≤△+ 2, and Xvef (G) = △+ 1 if and only if G has a matching M...Let G be an outerplane graph with maximum degree A and the entire chromatic number Xvef(G). This paper proves that if △ ≥6, then △+ 1≤Xvef(G)≤△+ 2, and Xvef (G) = △+ 1 if and only if G has a matching M consisting of some inner edges which covers all its vertices of maximum degree.展开更多
Let G be a maximal outerplane graph and X0(G) the complete chromatic number of G. This paper determines exactly X0(G) for △(G)≠5 and proves 6≤X0.(G)≤7 for △(G) = 5, where △(G) is the maximum degree of vertices o...Let G be a maximal outerplane graph and X0(G) the complete chromatic number of G. This paper determines exactly X0(G) for △(G)≠5 and proves 6≤X0.(G)≤7 for △(G) = 5, where △(G) is the maximum degree of vertices of G.展开更多
文摘Let G be an outerplane graph with maximum degree A and the entire chromatic number Xvef(G). This paper proves that if △ ≥6, then △+ 1≤Xvef(G)≤△+ 2, and Xvef (G) = △+ 1 if and only if G has a matching M consisting of some inner edges which covers all its vertices of maximum degree.
基金Project supported by the Vatural SCience Foundation of LNEC.
文摘Let G be a maximal outerplane graph and X0(G) the complete chromatic number of G. This paper determines exactly X0(G) for △(G)≠5 and proves 6≤X0.(G)≤7 for △(G) = 5, where △(G) is the maximum degree of vertices of G.
