# R igraph manual pages

Use this if you are using igraph from R

## Find Bonacich alpha centrality scores of network positions

### Description

alpha_centrality calculates the alpha centrality of some (or all) vertices in a graph.

### Usage

alpha_centrality(
graph,
nodes = V(graph),
alpha = 1,
loops = FALSE,
exo = 1,
weights = NULL,
tol = 1e-07,
sparse = TRUE
)


### Arguments

 graph The input graph, can be directed or undirected nodes Vertex sequence, the vertices for which the alpha centrality values are returned. (For technical reasons they will be calculated for all vertices, anyway.) alpha Parameter specifying the relative importance of endogenous versus exogenous factors in the determination of centrality. See details below. loops Whether to eliminate loop edges from the graph before the calculation. exo The exogenous factors, in most cases this is either a constant – the same factor for every node, or a vector giving the factor for every vertex. Note that too long vectors will be truncated and too short vectors will be replicated to match the number of vertices. weights A character scalar that gives the name of the edge attribute to use in the adjacency matrix. If it is NULL, then the ‘weight’ edge attribute of the graph is used, if there is one. Otherwise, or if it is NA, then the calculation uses the standard adjacency matrix. tol Tolerance for near-singularities during matrix inversion, see solve. sparse Logical scalar, whether to use sparse matrices for the calculation. The ‘Matrix’ package is required for sparse matrix support

### Details

The alpha centrality measure can be considered as a generalization of eigenvector centerality to directed graphs. It was proposed by Bonacich in 2001 (see reference below).

The alpha centrality of the vertices in a graph is defined as the solution of the following matrix equation:

x=alpha t(A)x+e,

where A is the (not neccessarily symmetric) adjacency matrix of the graph, e is the vector of exogenous sources of status of the vertices and alpha is the relative importance of the endogenous versus exogenous factors.

### Value

A numeric vector contaning the centrality scores for the selected vertices.

### Warning

Singular adjacency matrices cause problems for this algorithm, the routine may fail is certain cases.

### Author(s)

Gabor Csardi csardi.gabor@gmail.com

### References

Bonacich, P. and Lloyd, P. (2001). “Eigenvector-like measures of centrality for asymmetric relations” Social Networks, 23, 191-201.

eigen_centrality and power_centrality

### Examples


# The examples from Bonacich's paper
g.1 <- graph( c(1,3,2,3,3,4,4,5) )
g.2 <- graph( c(2,1,3,1,4,1,5,1) )
g.3 <- graph( c(1,2,2,3,3,4,4,1,5,1) )
alpha_centrality(g.1)
alpha_centrality(g.2)
alpha_centrality(g.3,alpha=0.5)



[Package igraph version 1.2.6 Index]