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Walk-regular graph

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In graph theory, a walk-regular graph is a simple graph where the number of closed walks of any length from a vertex to itself does only depend on but not depend on the choice of vertex. Walk-regular graphs can be thought of as a spectral graph theory analogue of vertex-transitive graphs. While a walk-regular graph is not necessarily very symmetric, all its vertices still behave identically with respect to the graph's spectral properties.

Equivalent definitions

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Suppose that is a simple graph. Let denote the adjacency matrix of , denote the set of vertices of , and denote the characteristic polynomial of the vertex-deleted subgraph for all Then the following are equivalent:

  • is walk-regular.
  • is a constant-diagonal matrix for all
  • for all

Examples

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Properties

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k-walk-regular graphs

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A graph is -walk-regular if for any two vertices and of distance at most the number of walks of length from to depends only on and . [2]

For these are exactly the walk-regular graphs.

In analogy to walk-regular graphs generalizing vertex-transitive graphs, 1-walk-regular graphs can be thought of as generalizing symmetric graphs, that is, graphs that are both vertex- and edge-transitive. For example, the Hoffman graph is 1-walk-regular but not symmetric.

If is at least the diameter of the graph, then the -walk-regular graphs coincide with the distance-regular graphs. In fact, if and the graph has an eigenvalue of multiplicity at most (except for eigenvalues and , where is the degree of the graph), then the graph is already distance-regular.[3]

References

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  1. ^ "Are there only finitely many distinct cubic walk-regular graphs that are neither vertex-transitive nor distance-regular?". mathoverflow.net. Retrieved 2017-07-21.
  2. ^ Cristina Dalfó, Miguel Angel Fiol, and Ernest Garriga, "On -Walk-Regular Graphs," Electronic Journal of Combinatorics 16(1) (2009), article R47.
  3. ^ Marc Camara et al., "Geometric aspects of 2-walk-regular graphs," Linear Algebra and its Applications 439(9) (2013), 2692-2710.
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