Weak coloring

Weak 2-coloring.

In graph theory, a weak coloring is a special case of a graph labeling. A weak $k$ -coloring of a graph $G = (V, E)$ assigns a color $c (v) \in {1, 2, ..., k$ } to each vertex $v \in V$ , such that each non-isolated vertex is adjacent to at least one vertex with different color. In notation, for each non-isolated $v \in V$ , there is a vertex $u \in V$ with ${u, v} \in E$ and $c (u) \neq c (v)$ .

The figure on the right shows a weak 2-coloring of a graph. Each dark vertex (color 1) is adjacent to at least one light vertex (color 2) and vice versa.

Constructing a weak 2-coloring.

Properties

A graph vertex coloring is a weak coloring, but not necessarily vice versa.

Every graph has a weak 2-coloring. The figure on the right illustrates a simple algorithm for constructing a weak 2-coloring in an arbitrary graph. Part (a) shows the original graph. Part (b) shows a breadth-first search tree of the same graph. Part (c) shows how to color the tree: starting from the root, the layers of the tree are colored alternatingly with colors 1 (dark) and 2 (light).

If there is no isolated vertex in the graph $G$ , then a weak 2-coloring determines a domatic partition: the set of the nodes with $c (v) = 1$ is a dominating set, and the set of the nodes with $c (v) = 2$ is another dominating set.

Applications

Historically, weak coloring served as the first non-trivial example of a graph problem that can be solved with a local algorithm (a distributed algorithm that runs in a constant number of synchronous communication rounds). More precisely, if the degree of each node is odd and bounded by a constant, then there is a constant-time distributed algorithm for weak 2-coloring.^[1]

This is different from (non-weak) vertex coloring: there is no constant-time distributed algorithm for vertex coloring; the best possible algorithms (for finding a minimal but not necessarily minimum coloring) require $O (10%">*$ |V|) communication rounds.^[1]^[2]^[3] Here $10%">*$ x is the iterated logarithm of $x$ .

References

↑ ^1.0 ^1.1 "What can be computed locally?", SIAM Journal on Computing 24 (6): 1259–1277, 1995, doi:10.1137/S0097539793254571 .
↑ "Locality in distributed graph algorithms", SIAM Journal on Computing 21 (1): 193–201, 1992, doi:10.1137/0221015 .
↑ Cole, Richard (1986), "Deterministic coin tossing with applications to optimal parallel list ranking", Information and Control 70 (1): 32–53, doi:10.1016/S0019-9958(86)80023-7 .

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Original source: https://en.wikipedia.org/wiki/Weak coloring. Read more

[naor-stockmeyer-1995-1] 1.0 ^1.1 "What can be computed locally?", SIAM Journal on Computing 24 (6): 1259–1277, 1995, doi:10.1137/S0097539793254571 .

[2] "Locality in distributed graph algorithms", SIAM Journal on Computing 21 (1): 193–201, 1992, doi:10.1137/0221015 .

[3] Cole, Richard (1986), "Deterministic coin tossing with applications to optimal parallel list ranking", Information and Control 70 (1): 32–53, doi:10.1016/S0019-9958(86)80023-7 .

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