incremental_closeness_centrality#
- incremental_closeness_centrality(G, edge, prev_cc=None, insertion=True, wf_improved=True)[source]#
Incremental closeness centrality for nodes.
Compute closeness centrality for nodes using level-based work filtering as described in Incremental Algorithms for Closeness Centrality by Sariyuce et al.
Level-based work filtering detects unnecessary updates to the closeness centrality and filters them out.
— From “Incremental Algorithms for Closeness Centrality”:
Theorem 1: Let \(G = (V, E)\) be a graph and u and v be two vertices in V such that there is no edge (u, v) in E. Let \(G' = (V, E \cup uv)\) Then \(cc[s] = cc'[s]\) if and only if \(\left|dG(s, u) - dG(s, v)\right| \leq 1\).
Where \(dG(u, v)\) denotes the length of the shortest path between two vertices u, v in a graph G, cc[s] is the closeness centrality for a vertex s in V, and cc’[s] is the closeness centrality for a vertex s in V, with the (u, v) edge added. —
We use Theorem 1 to filter out updates when adding or removing an edge. When adding an edge (u, v), we compute the shortest path lengths from all other nodes to u and to v before the node is added. When removing an edge, we compute the shortest path lengths after the edge is removed. Then we apply Theorem 1 to use previously computed closeness centrality for nodes where \(\left|dG(s, u) - dG(s, v)\right| \leq 1\). This works only for undirected, unweighted graphs; the distance argument is not supported.
Closeness centrality [1] of a node
u
is the reciprocal of the sum of the shortest path distances fromu
to alln-1
other nodes. Since the sum of distances depends on the number of nodes in the graph, closeness is normalized by the sum of minimum possible distancesn-1
.\[C(u) = \frac{n - 1}{\sum_{v=1}^{n-1} d(v, u)},\]where
d(v, u)
is the shortest-path distance betweenv
andu
, andn
is the number of nodes in the graph.Notice that higher values of closeness indicate higher centrality.
- Parameters
- Ggraph
A NetworkX graph
- edgetuple
The modified edge (u, v) in the graph.
- prev_ccdictionary
The previous closeness centrality for all nodes in the graph.
- insertionbool, optional
If True (default) the edge was inserted, otherwise it was deleted from the graph.
- wf_improvedbool, optional (default=True)
If True, scale by the fraction of nodes reachable. This gives the Wasserman and Faust improved formula. For single component graphs it is the same as the original formula.
- Returns
- nodesdictionary
Dictionary of nodes with closeness centrality as the value.
See also
Notes
The closeness centrality is normalized to
(n-1)/(|G|-1)
wheren
is the number of nodes in the connected part of graph containing the node. If the graph is not completely connected, this algorithm computes the closeness centrality for each connected part separately.References
- 1
Freeman, L.C., 1979. Centrality in networks: I. Conceptual clarification. Social Networks 1, 215–239. https://doi.org/10.1016/0378-8733(78)90021-7
- 2
Sariyuce, A.E. ; Kaya, K. ; Saule, E. ; Catalyiirek, U.V. Incremental Algorithms for Closeness Centrality. 2013 IEEE International Conference on Big Data http://sariyuce.com/papers/bigdata13.pdf