Title :
Heuristics for Speeding Up Betweenness Centrality Computation
Author :
Puzis, Rami ; Zilberman, P. ; Elovici, Yuval ; Dolev, Shlomi ; Brandes, Ulrik
Author_Institution :
Univ. of Maryland Inst. for Adv. Comput. Studies (UMIACS), College Park, MD, USA
Abstract :
We propose and evaluate two complementary heuristics to speed up exact computation of the shortest-path between ness centrality. Both heuristics are relatively simple adaptations of the standard algorithm for between ness centrality. Consequently, they generalize the computation of edge between ness and most other variants, and can be used to further speed up between ness estimation algorithms, as well. In the first heuristic, structurally equivalent vertices are contracted based on the observation that they have the same centrality and also contribute equally to the centrality of others. In the second heuristic, we first apply a linear-time between ness algorithm on the block-cut point tree and then compute the remaining contributions separately in each biconnected component. Experiments on a variety of large graphs illustrate the efficiency and complementarity of our heuristics.
Keywords :
computational complexity; network theory (graphs); trees (mathematics); biconnected component; block-cutpoint tree; complementary heuristics; computational complexity; edge betweenness estimation algorithm; exact computation; graph vertex contraction; linear-time betweenness estimation algorithm; shortest-path betweenness centrality computation; Artificial neural networks; Bismuth; Educational institutions; Electronic mail; Equations; Heuristic algorithms; Partitioning algorithms; betweenness; bi-connectivity; speedup heuristics; structural equivalence;
Conference_Titel :
Privacy, Security, Risk and Trust (PASSAT), 2012 International Conference on and 2012 International Confernece on Social Computing (SocialCom)
Conference_Location :
Amsterdam
Print_ISBN :
978-1-4673-5638-1
DOI :
10.1109/SocialCom-PASSAT.2012.66
