Multigraph

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This article is about the mathematical concept. For other uses, see Multigraph (disambiguation).
"Pseudograph" redirects here. It is not to be confused with Pseudepigraph.
A multigraph with multiple edges (red) and several loops (blue). Not all authors allow multigraphs to have loops.

In mathematics, and more specifically in graph theory, a multigraph (or pseudograph) is a graph which is permitted to have multiple edges (also called "parallel edges"[1]), that is, edges that have the same end nodes. Thus two vertices may be connected by more than one edge. (A multigraph is thus different from a hypergraph, which is a graph in which an edge can connect any number of nodes, not just 2.)

There are two distinct notions of multiple edges. One says that, as in graphs without multiple edges, the identity of an edge is defined by the nodes it connects, but the same edge can occur several times between these nodes. Alternatively, one defines edges to be first-class entities like nodes, each having its own identity independent of the nodes it connects.

Undirected multigraph (edges without own identity)[edit]

Formally, a multigraph G is an ordered pair G:=(V, E) with

  • V a set of vertices or nodes,
  • E a multiset of unordered pairs of vertices, called edges or lines.

Multigraphs might be used to model the possible flight connections offered by an airline. In this case the multigraph would be a directed graph with pairs of directed parallel edges connecting cities to show that it is possible to fly both to and from these locations.

Some authors also allow multigraphs to have loops, that is, an edge that connects a vertex to itself,[2] while others call these pseudographs, reserving the term multigraph for the case with no loops.[3]

Directed multigraph (edges without own identity)[edit]

A multidigraph is a directed graph which is permitted to have multiple arcs, i.e., arcs with the same source and target nodes. A multidigraph G is an ordered pair G:=(V,A) with

  • V a set of vertices or nodes,
  • A a multiset of ordered pairs of vertices called directed edges, arcs or arrows.

A mixed multigraph G:=(V,E, A) may be defined in the same way as a mixed graph.

Directed multigraph (edges with own identity)[edit]

A multidigraph or quiver G is an ordered 4-tuple G:=(V, A, s, t) with

  • V a set of vertices or nodes,
  • A a set of edges or lines,
  • s : A \rightarrow V, assigning to each edge its source node,
  • t : A \rightarrow V, assigning to each edge its target node.

In category theory a small category can be defined as a multidigraph (with edges having their own identity) equipped with an associative composition law and a distinguished self-loop at each vertex serving as the left and right identity for composition. For this reason, in category theory the term graph is standardly taken to mean "multidigraph", and the underlying multidigraph of a category is called its underlying digraph.

Labeling[edit]

Multigraphs and multidigraphs also support the notion of graph labeling, in a similar way. However there is no unity in terminology in this case.

The definitions of labeled multigraphs and labeled multidigraphs are similar, and we define only the latter ones here.

Definition 1: A labeled multidigraph is a labeled graph with labeled arcs.

Formally: A labeled multidigraph G is a multigraph with labeled vertices and arcs. Formally it is an 8-tuple G=(\Sigma_V, \Sigma_A, V, A, s, t, \ell_V, \ell_A) where

  • V is a set of vertices and A is a set of arcs.
  • \Sigma_V and \Sigma_A are finite alphabets of the available vertex and arc labels,
  • s\colon A\rightarrow\ V and t\colon A\rightarrow\ V are two maps indicating the source and target vertex of an arc,
  • \ell_V\colon V\rightarrow\Sigma_V and \ell_A\colon A\rightarrow\Sigma_A are two maps describing the labeling of the vertices and arcs.

Definition 2: A labeled multidigraph is a labeled graph with multiple labeled arcs, i.e. arcs with the same end vertices and the same arc label (note that this notion of a labeled graph is different from the notion given by the article graph labeling).

See also[edit]

Notes[edit]

  1. ^ For example, see Balakrishnan, p. 1.
  2. ^ For example, see. Bollobás, p. 7 and Diestel, p. 25.
  3. ^ Graphs, Colourings and the Four-Colour Theorem, by Robert A. Wilson, 2002, ISBN 0-19-851062-4, p. 6

References[edit]

External links[edit]