L(h, k)-coloring

In graph theory, a L(h, k)-labelling, L(h, k)-coloring or sometimes L(p, q)-coloring is a (proper) vertex coloring in which every pair of adjacent vertices has color numbers that differ by at least h, and any nodes connected by a 2 length path have their colors differ by at least k.^[1] The parameters, h and k are understood to be non-negative integers.

The problem originated from a channel assignment problem in radio networks. The span of an L(h, k)-labelling, ρ_h,k(G) is the difference between the largest and the smallest assigned frequency. The goal of the L(h, k)-labelling problem is usually to find a labelling with minimum span.^[2] For a given graph, the minimum span over all possible labelling functions is the λ_h,k-number of G, denoted by λ_h,k(G).

When h=1 and k=0, it is the usual (proper) vertex coloring.

There is a very large number of articles concerning L(h, k)-labelling, with different h and k parameters and different classes of graphs.

In some variants, the goal is to minimize the number of used colors (the order).

References[edit]

^ Chartrand, Gary; Zhang, Ping (2009). "14. Colorings, Distance, and Domination". Chromatic Graph Theory. CRC Press. pp. 397–438.
^ Tiziana, Calamoneri (2006), "The L(h, k)-Labelling Problem: A Survey and Annotated Bibliography", Comput. J., 49 (5): 585–608, doi:10.1093/comjnl/bxl018

This graph theory-related article is a stub. You can help Wikipedia by expanding it.

[e01-1] Chartrand, Gary; Zhang, Ping (2009). "14. Colorings, Distance, and Domination". Chromatic Graph Theory. CRC Press. pp. 397–438.

[Tiziana-2] Tiziana, Calamoneri (2006), "The L(h, k)-Labelling Problem: A Survey and Annotated Bibliography", Comput. J., 49 (5): 585–608, doi:10.1093/comjnl/bxl018

[1]

[2]

See also[edit]

References[edit]