Closeness: Difference between revisions

Closeness is a radial measure of centrality that favors actors who are connected with many others via short paths.

The raw closeness score of a node ${\displaystyle v}$ is defined as the reciprocal of its total distance to those it can reach via directed paths,

${\displaystyle c_{C}(v)={\frac {\text{number of reachable nodes}}{\sum \limits _{{\text{reachable nodes }}t}d_{G}(v,t)}}}$

where ${\displaystyle d_{G}(v,t)}$ denotes the length of a shortest directed path from ${\displaystyle v}$ to ${\displaystyle t}$. If a link strength has been selected, the length of an ${\displaystyle (v,t)}$-path is the sum of the corresponding attribute values of all links in the path.

Definition (simple case)

On directed, unweighted graphs ${\displaystyle G=(V,E)}$ that are strongly connected, the closeness centrality ${\displaystyle c_{C}(v)}$ of a node ${\displaystyle v\in V}$ is defined as

${\displaystyle c_{C}(v)={\frac {|V|-1}{\sum \limits _{t\in V\setminus v}d_{G}(v,t)}}}$,

where ${\displaystyle d_{G}(v,t)}$ denotes the length of a shortest directed path from ${\displaystyle v}$ to ${\displaystyle t}$.

Example

Special cases

Unconnected graphs

Edge weights and distances

Implementation in visone

Normalization and treatment of special cases

Algorithmic runtime

Related measures

References