Find Strongly Connected Components in a Directed Graph: Difference between revisions

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Finding strongly connected components in a directed graph is a form of clustering heuristics: strongly connected components represent clusters where the objects represented by the vertices are clustered in some way.
Finding strongly connected components in a directed graph is a form of clustering heuristics: strongly connected components represent clusters where the objects represented by the vertices are clustered in some way.


[[Graph_Concepts#Strongly_Connected_Component|Strongly connected components]] of a directed graph can be computed with Kosaraju's algorithm, which consists of two passes of [[Graph_Search#DFS_and_Directed_Connectivity_-_Compute_Strong_Components|depth-first search]].
[[Graph_Concepts#Strongly_Connected_Component|Strongly connected components]] of a directed graph can be computed with Kosaraju's Two-Pass algorithm, which consists of two passes of [[Graph_Search#DFS_and_Directed_Connectivity_-_Compute_Strong_Components|depth-first search]].


=Algorithm=
=Algorithm=

Revision as of 22:07, 4 October 2021

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Overview

Finding strongly connected components in a directed graph is a form of clustering heuristics: strongly connected components represent clusters where the objects represented by the vertices are clustered in some way.

Strongly connected components of a directed graph can be computed with Kosaraju's Two-Pass algorithm, which consists of two passes of depth-first search.

Algorithm