Hierarchical closeness (HC) is a structural centrality measure used in

network theory Network theory is the study of graphs as a representation of either symmetric relations or asymmetric relations between discrete objects. In computer science and network science, network theory is a part of graph theory: a network can be defi ...

graph theory In mathematics, graph theory is the study of ''graphs'', which are mathematical structures used to model pairwise relations between objects. A graph in this context is made up of '' vertices'' (also called ''nodes'' or ''points'') which are conne ...

. It is extended from closeness centrality to rank how centrally located a node is in a directed network. While the original closeness centrality of a directed network considers the most important node to be that with the least total distance from all other nodes, hierarchical closeness evaluates the most important node as the one which reaches the most nodes by the shortest paths. The hierarchical closeness explicitly includes information about the range of other nodes that can be affected by the given node. In a directed network

G(V, A)

where

V

is the set of nodes and

A

is the set of interactions, hierarchical closeness of a node

i

∈

V

called

C_(i)

was proposed by Tran and KwonTran, T.-D. and Kwon, Y.-K. Hierarchical closeness efficiently predicts disease genes in a directed signaling network, Computational biology and chemistry. as follows: :

C_(i) = N_R(i) + C_(i)

where: *

N_R(i) \in V,  - 1

is the reachability of a node

i

defined by

N_R(i) = , \,

, and *

C_(i)

is the normalized form of original closeness (Sabidussi, 1966). It can use a variant definition of closenessOpsahl, T., Agneessens, F. and Skvoretz, J. (2010) Node centrality in weighted networks: Generalizing degree and shortest paths, Social networks, 32, 245-251. as follows:

C_(i)=\frac \sum_ \frac

where

d(i, j)

is the distance of the shortest path, if any, from

i

j

; otherwise,

d(i, j)

is specified as an infinite value. In the formula,

N_R(i)

represents the number of nodes in

V

that can be reachable from

i

. It can also represent the hierarchical position of a node in a directed network. It notes that if

N_R(i) = 0

, then

C_(i) = 0

because

C_(i)

0

. In cases where

N_R(i) > 0

, the reachability is a dominant factor because

N_R(i) \geq 1

but

C_(i) < 1

. In other words, the first term indicates the level of the global hierarchy and the second term presents the level of the local centrality.

Application

Hierarchical closeness can be used in biological networks to rank the risk of genes to carry disease

References

{{reflist Graph theory Graph algorithms Algebraic graph theory Networks Network analysis Network theory