Use this if you are using igraph from R
authority_score {igraph} | R Documentation |
The authority scores of the vertices are defined as the principal
eigenvector of A^T A
, where A
is the adjacency
matrix of the graph.
authority_score(graph, scale = TRUE, weights = NULL, options = arpack_defaults)
graph |
The input graph. |
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 |
Optional positive weight vector for calculating weighted
scores. If the graph has a |
options |
A named list, to override some ARPACK options. See
|
For undirected matrices the adjacency matrix is symmetric and the
authority scores are the same as hub scores, see
hub_score
.
A named list with members:
vector |
The authority/hub scores of the vertices. |
value |
The corresponding eigenvalue of the calculated principal eigenvector. |
options |
Some information about the ARPACK computation, it has
the same members as the |
J. Kleinberg. Authoritative sources in a hyperlinked environment. Proc. 9th ACM-SIAM Symposium on Discrete Algorithms, 1998. Extended version in Journal of the ACM 46(1999). Also appears as IBM Research Report RJ 10076, May 1997.
hub_score
, eigen_centrality
for
eigenvector centrality, page_rank
for the Page Rank
scores. arpack
for the underlining machinery of the
computation.
## An in-star
g <- make_star(10)
hub_score(g)$vector
authority_score(g)$vector
## A ring
g2 <- make_ring(10)
hub_score(g2)$vector
authority_score(g2)$vector