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igraph

eigen_centrality

Find Eigenvector Centrality Scores of Network Positions

Description

eigen_centrality takes a graph (graph) and returns the eigenvector centralities of positions v within it

Usage

eigen_centrality(
  graph,
  directed = FALSE,
  scale = TRUE,
  weights = NULL,
  options = arpack_defaults
)

Arguments

`graph`	Graph to be analyzed.
`directed`	Logical scalar, whether to consider direction of the edges in directed graphs. It is ignored for undirected graphs.
`scale`	Logical scalar, whether to scale the result to have a maximum score of one. If no scaling is used then the result vector has unit length in the Euclidean norm.
`weights`	A numerical vector or `NULL`. This argument can be used to give edge weights for calculating the weighted eigenvector centrality of vertices. If this is `NULL` and the graph has a `weight` edge attribute then that is used. If `weights` is a numerical vector then it used, even if the graph has a `weight` edge attribute. If this is `NA`, then no edge weights are used (even if the graph has a `weight` edge attribute. Note that if there are negative edge weights and the direction of the edges is considered, then the eigenvector might be complex. In this case only the real part is reported. This function interprets weights as connection strength. Higher weights spread the centrality better.
`options`	A named list, to override some ARPACK options. See `arpack` for details.

Details

Eigenvector centrality scores correspond to the values of the first eigenvector of the graph adjacency matrix; these scores may, in turn, be interpreted as arising from a reciprocal process in which the centrality of each actor is proportional to the sum of the centralities of those actors to whom he or she is connected. In general, vertices with high eigenvector centralities are those which are connected to many other vertices which are, in turn, connected to many others (and so on). (The perceptive may realize that this implies that the largest values will be obtained by individuals in large cliques (or high-density substructures). This is also intelligible from an algebraic point of view, with the first eigenvector being closely related to the best rank-1 approximation of the adjacency matrix (a relationship which is easy to see in the special case of a diagonalizable symmetric real matrix via the $S Λ S^{-1}$ decomposition).)

From igraph version 0.5 this function uses ARPACK for the underlying computation, see arpack for more about ARPACK in igraph.

Value

A named list with components:

`vector`	A vector containing the centrality scores.
`value`	The eigenvalue corresponding to the calculated eigenvector, i.e. the centrality scores.
`options`	A named list, information about the underlying ARPACK computation. See `arpack` for the details.

WARNING

eigen_centrality will not symmetrize your data before extracting eigenvectors; don't send this routine asymmetric matrices unless you really mean to do so.

Author(s)

Gabor Csardi csardi.gabor@gmail.com and Carter T. Butts (http://www.faculty.uci.edu/profile.cfm?faculty_id=5057) for the manual page.

References

Bonacich, P. (1987). Power and Centrality: A Family of Measures. American Journal of Sociology, 92, 1170-1182.

Examples

#Generate some test data
g <- make_ring(10, directed=FALSE)
#Compute eigenvector centrality scores
eigen_centrality(g)

igraph

Network Analysis and Visualization

v1.2.10

GPL (>= 2)

Authors

See AUTHORS file.

Initial release

eigen_centrality

Description

Usage

Arguments

Details

Value

WARNING

Author(s)

References

Examples

igraph

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