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 conn ...

, a biconnected component (sometimes known as a 2-connected component) is a maximal biconnected subgraph. Any

connected graph In mathematics and computer science, connectivity is one of the basic concepts of graph theory: it asks for the minimum number of elements (nodes or edges) that need to be removed to separate the remaining nodes into two or more isolated subgrap ...

decomposes into a

tree In botany, a tree is a perennial plant with an elongated stem, or trunk, usually supporting branches and leaves. In some usages, the definition of a tree may be narrower, including only woody plants with secondary growth, plants that are ...

of biconnected components called the block-cut tree of the graph. The blocks are attached to each other at shared vertices called cut vertices or separating vertices or articulation points. Specifically, a cut vertex is any vertex whose removal increases the number of connected components.

Algorithms

Linear time depth-first search

The classic

sequential algorithm In computer science, a sequential algorithm or serial algorithm is an algorithm that is executed sequentially – once through, from start to finish, without other processing executing – as opposed to concurrently or in parallel. The term is prim ...

for computing biconnected components in a connected

undirected graph In discrete mathematics, and more specifically in graph theory, a graph is a structure amounting to a set of objects in which some pairs of the objects are in some sense "related". The objects correspond to mathematical abstractions called '' ve ...

is due to

John Hopcroft John Edward Hopcroft (born October 7, 1939) is an American theoretical computer scientist. His textbooks on theory of computation (also known as the Cinderella book) and data structures are regarded as standards in their fields. He is the IBM P ...

and

Robert Tarjan Robert Endre Tarjan (born April 30, 1948) is an American computer scientist and mathematician. He is the discoverer of several graph algorithms, including Tarjan's off-line lowest common ancestors algorithm, and co-inventor of both splay trees ...

(1973). It runs in linear time, and is based on depth-first search. This algorithm is also outlined as Problem 22-2 of

Introduction to Algorithms ''Introduction to Algorithms'' is a book on computer programming by Thomas H. Cormen, Charles E. Leiserson, Ronald L. Rivest, and Clifford Stein. The book has been widely used as the textbook for algorithms courses at many universities and is ...

(both 2nd and 3rd editions). The idea is to run a depth-first search while maintaining the following information: # the depth of each vertex in the depth-first-search tree (once it gets visited), and # for each vertex , the lowest depth of neighbors of all descendants of (including itself) in the depth-first-search tree, called the . The depth is standard to maintain during a depth-first search. The low point of can be computed after visiting all descendants of (i.e., just before gets popped off the depth-first-search stack) as the minimum of the depth of , the depth of all neighbors of (other than the parent of in the depth-first-search tree) and the lowpoint of all children of in the depth-first-search tree. The key fact is that a nonroot vertex is a cut vertex (or articulation point) separating two biconnected components if and only if there is a child of such that . This property can be tested once the depth-first search returned from every child of (i.e., just before gets popped off the depth-first-search stack), and if true, separates the graph into different biconnected components. This can be represented by computing one biconnected component out of every such (a component which contains will contain the subtree of , plus ), and then erasing the subtree of from the tree. The root vertex must be handled separately: it is a cut vertex if and only if it has at least two children in the DFS tree. Thus, it suffices to simply build one component out of each child subtree of the root (including the root).

Pseudocode

GetArticulationPoints(i, d) visited := true depth := d low := d childCount := 0 isArticulation := false for each ni in adj do if not visited ithen parent i:= i GetArticulationPoints(ni, d + 1) childCount := childCount + 1 if low i≥ depth then isArticulation := true low := Min (low low i else if ni ≠ parent then low := Min (low depth i if (parent ≠ null and isArticulation) or (parent = null and childCount > 1) then Output i as articulation point Note that the terms child and parent denote the relations in the DFS tree, not the original graph.

Other algorithms

A simple alternative to the above algorithm uses chain decompositions, which are special ear decompositions depending on DFS-trees.. Chain decompositions can be computed in linear time by this traversing rule. Let be a chain decomposition of . Then is 2-vertex-connected if and only if has minimum

degree Degree may refer to: As a unit of measurement * Degree (angle), a unit of angle measurement ** Degree of geographical latitude ** Degree of geographical longitude * Degree symbol (°), a notation used in science, engineering, and mathematics ...

2 and is the only cycle in . This gives immediately a linear-time 2-connectivity test and can be extended to list all cut vertices of in linear time using the following statement: A vertex in a connected graph (with minimum degree 2) is a cut vertex if and only if is incident to a

bridge A bridge is a structure built to span a physical obstacle (such as a body of water, valley, road, or rail) without blocking the way underneath. It is constructed for the purpose of providing passage over the obstacle, which is usually somethi ...

or is the first vertex of a cycle in . The list of cut vertices can be used to create the block-cut tree of in linear time. In the

online In computer technology and telecommunications, online indicates a state of connectivity and offline indicates a disconnected state. In modern terminology, this usually refers to an Internet connection, but (especially when expressed "on line" o ...

version of the problem, vertices and edges are added (but not removed) dynamically, and a data structure must maintain the biconnected components. Jeffery Westbrook and

(1992) developed an efficient data structure for this problem based on

disjoint-set data structure In computer science, a disjoint-set data structure, also called a union–find data structure or merge–find set, is a data structure that stores a collection of disjoint (non-overlapping) sets. Equivalently, it stores a partition of a set ...

s. Specifically, it processes vertex additions and edge additions in total time, where is the

inverse Ackermann function In computability theory, the Ackermann function, named after Wilhelm Ackermann, is one of the simplest and earliest-discovered examples of a total computable function that is not primitive recursive. All primitive recursive functions are total ...

. This time bound is proved to be optimal.

Uzi Vishkin Uzi Vishkin (born 1953) is a computer scientist at the University of Maryland, College Park, where he is Professor of Electrical and Computer Engineering at the University of Maryland Institute for Advanced Computer Studies (UMIACS). Uzi Vishkin i ...

and

(1985) designed a

parallel algorithm In computer science, a parallel algorithm, as opposed to a traditional serial algorithm, is an algorithm which can do multiple operations in a given time. It has been a tradition of computer science to describe serial algorithms in abstract machin ...

on CRCW PRAM that runs in time with processors.

Related structures

Equivalence relation

One can define a binary relation on the edges of an arbitrary undirected graph, according to which two edges and are related if and only if either or the graph contains a

simple cycle In graph theory, a cycle in a graph is a non-empty trail in which only the first and last vertices are equal. A directed cycle in a directed graph is a non-empty directed trail in which only the first and last vertices are equal. A graph witho ...

through both and . Every edge is related to itself, and an edge is related to another edge if and only if is related in the same way to . Less obviously, this is a

transitive relation In mathematics, a relation on a set is transitive if, for all elements , , in , whenever relates to and to , then also relates to . Each partial order as well as each equivalence relation needs to be transitive. Definition A ho ...

: if there exists a simple cycle containing edges and , and another simple cycle containing edges and , then one can combine these two cycles to find a simple cycle through and . Therefore, this is an equivalence relation, and it can be used to partition the edges into equivalence classes, subsets of edges with the property that two edges are related to each other if and only if they belong to the same equivalence class. The subgraphs formed by the edges in each equivalence class are the biconnected components of the given graph. Thus, the biconnected components partition the edges of the graph; however, they may share vertices with each other.

Block graph

The block graph of a given graph is the

intersection graph In graph theory, an intersection graph is a graph that represents the pattern of intersections of a family of sets. Any graph can be represented as an intersection graph, but some important special classes of graphs can be defined by the types o ...

of its blocks. Thus, it has one vertex for each block of , and an edge between two vertices whenever the corresponding two blocks share a vertex. A graph is the block graph of another graph exactly when all the blocks of are complete subgraphs. The graphs with this property are known as the

block graph In graph theory, a branch of combinatorial mathematics, a block graph or clique tree. is a type of undirected graph in which every biconnected component (block) is a clique. Block graphs are sometimes erroneously called Husimi trees (after K� ...

Block-cut tree

A cutpoint, cut vertex, or articulation point of a graph is a vertex that is shared by two or more blocks. The structure of the blocks and cutpoints of a connected graph can be described by a

called the block-cut tree or BC-tree. This tree has a vertex for each block and for each articulation point of the given graph. There is an edge in the block-cut tree for each pair of a block and an articulation point that belongs to that block., p. 36. Block-cut tree2

Notes

References

External links

C++ implementation of Biconnected Components
{{DEFAULTSORT:Biconnected Component Graph connectivity Articles with example pseudocode