English

Forbidden Subgraphs in Connected Graphs

Data Structures and Algorithms 2007-05-23 v1 Discrete Mathematics Combinatorics

Abstract

Given a set ξ={H1,H2,...}\xi=\{H_1,H_2,...\} of connected non acyclic graphs, a ξ\xi-free graph is one which does not contain any member of % \xi as copy. Define the excess of a graph as the difference between its number of edges and its number of vertices. Let \grWk,ξ{\gr{W}}_{k,\xi} be theexponential generating function (EGF for brief) of connected ξ\xi-free graphs of excess equal to kk (k1k \geq 1). For each fixed ξ\xi, a fundamental differential recurrence satisfied by the EGFs \grWk,ξ{\gr{W}}_{k,\xi} is derived. We give methods on how to solve this nonlinear recurrence for the first few values of kk by means of graph surgery. We also show that for any finite collection ξ\xi of non-acyclic graphs, the EGFs \grWk,ξ{\gr{W}}_{k,\xi} are always rational functions of the generating function, TT, of Cayley's rooted (non-planar) labelled trees. From this, we prove that almost all connected graphs with nn nodes and n+kn+k edges are ξ\xi-free, whenever k=o(n1/3)k=o(n^{1/3}) and ξ<|\xi| < \infty by means of Wright's inequalities and saddle point method. Limiting distributions are derived for sparse connected ξ\xi-free components that are present when a random graph on nn nodes has approximately n2\frac{n}{2} edges. In particular, the probability distribution that it consists of trees, unicyclic components, ......, (q+1)(q+1)-cyclic components all ξ\xi-free is derived. Similar results are also obtained for multigraphs, which are graphs where self-loops and multiple-edges are allowed.

Keywords

Cite

@article{arxiv.cs/0411093,
  title  = {Forbidden Subgraphs in Connected Graphs},
  author = {Vlady Ravelomanana and Loys Thimonier},
  journal= {arXiv preprint arXiv:cs/0411093},
  year   = {2007}
}