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 degree-constrained spanning tree is a

spanning tree In the mathematical field of graph theory, a spanning tree ''T'' of an undirected graph ''G'' is a subgraph that is a tree which includes all of the vertices of ''G''. In general, a graph may have several spanning trees, but a graph that is no ...

where the maximum vertex degree is limited to a certain constant ''k''. The degree-constrained spanning tree problem is to determine whether a particular

graph Graph may refer to: Mathematics *Graph (discrete mathematics), a structure made of vertices and edges **Graph theory, the study of such graphs and their properties *Graph (topology), a topological space resembling a graph in the sense of discre ...

has such a spanning tree for a particular ''k''.

Formal definition

Input: ''n''-node undirected graph G(V,E); positive

integer An integer is the number zero (), a positive natural number (, , , etc.) or a negative integer with a minus sign ( −1, −2, −3, etc.). The negative numbers are the additive inverses of the corresponding positive numbers. In the language ...

''k'' < ''n''. Question: Does G have a spanning tree in which no

node In general, a node is a localized swelling (a "knot") or a point of intersection (a vertex). Node may refer to: In mathematics * Vertex (graph theory), a vertex in a mathematical graph * Vertex (geometry), a point where two or more curves, line ...

has degree greater than ''k''?

NP-completeness

This problem is

NP-complete In computational complexity theory, a problem is NP-complete when: # it is a problem for which the correctness of each solution can be verified quickly (namely, in polynomial time) and a brute-force search algorithm can find a solution by tryin ...

. This can be shown by a reduction from the

Hamiltonian path problem In the mathematical field of graph theory the Hamiltonian path problem and the Hamiltonian cycle problem are problems of determining whether a Hamiltonian path (a path in an undirected or directed graph that visits each vertex exactly once) or a ...

. It remains NP-complete even if ''k'' is fixed to a value ≥ 2. If the problem is defined as the degree must be ≤ ''k'', the ''k'' = 2 case of degree-confined spanning tree is the Hamiltonian path problem.

Degree-constrained minimum spanning tree

On a weighted graph, a Degree-constrained minimum spanning tree (DCMST) is a degree-constrained spanning tree in which the sum of its edges has the minimum possible sum. Finding a DCMST is an NP-Hard problem.Bui, T. N. and Zrncic, C. M. 2006
An ant-based algorithm for finding degree-constrained minimum spanning tree.
In GECCO ’06: Proceedings of the 8th annual conference on Genetic and evolutionary computation, pages 11–18, New York, NY, USA. ACM. Heuristic algorithms that can solve the problem in polynomial time have been proposed, including Genetic and Ant-Based Algorithms.

Approximation Algorithm

give an iterative polynomial time algorithm which, given a graph

G

, returns a spanning tree with maximum degree no larger than

\Delta^* + 1

, where

\Delta^*

is the minimum possible maximum degree over all spanning trees. Thus, if

k = \Delta^*

, such an algorithm will either return a spanning tree of maximum degree

k

k+1

References

* *{{citation, first1=Martin, last1=Fürer, first2=Balaji, last2=Raghavachari, year=1994, title=Approximating the minimum-degree Steiner tree to within one of optimal, journal=Journal of Algorithms, volume=17, issue=3, pages=409–423, doi=10.1006/jagm.1994.1042, postscript=., citeseerx=10.1.1.136.1089 Spanning tree NP-complete problems