International audienceIn this contribution, we investigate the giant component problem in random graphs with a given degree sequence. We generalize the critical condition of Molloy and Reed [Molloy, M., and B. Reed, A critical point for random graphs with given degree sequence, Random Structures Algorithms 6 (1995), 161-179], which determines the existence of a giant component in such a random graph, in order to include degree sequences with heavy tails. We show that the quantity which determines the existence of a giant component is the value of the smallest fixed point inside the interval [0, 1] of the generating function F(s)=∑i⩾1δisi−1, where δi is the asymptotic proportion of the total degree contained in vertices of degree i. Moreover...
We consider some models of random graphs and directed graphs and investigate their behavior near thr...
AbstractLet G be a given graph (modelling a communication network) which we assume suffers from stat...
We consider random graphs with a fixed degree sequence. Molloy and Reed [11, 12] studied how the siz...
International audienceIn this contribution, we investigate the giant component problem in random gra...
We study the largest component of a random (multi)graph on n vertices with a given degree sequence. ...
For a fixed degree sequence D=(d1,…,dn) , let G(D) be a uniformly chosen (simple) graph on {1,…,n} w...
We study the problem of the existence of a giant component in a random multipartite graph. We consid...
We consider bond percolation on random graphs with given degrees and bounded average degree. In part...
original source http://www.cambridge.org/journals/journal_catalogue.asp?mnemonic=CPCGiven a sequence...
The k-core of a graph is the maximal induced subgraph with minimum degree k. In this paper, we nd co...
Abstract. In a recent work of the authors and Kim, we derived a com-plete description of the largest...
In 1998, Molloy and Reed showed that, under suitable conditions, if a sequence of degree sequences c...
We consider a family of random graphs with a given expected degree sequence. Each edge is chosen ind...
A strongly connected component of a directed graph G is a maximal subgraph H of G such that for each...
AMS Subject Classication: 05C80 Abstract. We consider a family of random graphs with a given expecte...
We consider some models of random graphs and directed graphs and investigate their behavior near thr...
AbstractLet G be a given graph (modelling a communication network) which we assume suffers from stat...
We consider random graphs with a fixed degree sequence. Molloy and Reed [11, 12] studied how the siz...
International audienceIn this contribution, we investigate the giant component problem in random gra...
We study the largest component of a random (multi)graph on n vertices with a given degree sequence. ...
For a fixed degree sequence D=(d1,…,dn) , let G(D) be a uniformly chosen (simple) graph on {1,…,n} w...
We study the problem of the existence of a giant component in a random multipartite graph. We consid...
We consider bond percolation on random graphs with given degrees and bounded average degree. In part...
original source http://www.cambridge.org/journals/journal_catalogue.asp?mnemonic=CPCGiven a sequence...
The k-core of a graph is the maximal induced subgraph with minimum degree k. In this paper, we nd co...
Abstract. In a recent work of the authors and Kim, we derived a com-plete description of the largest...
In 1998, Molloy and Reed showed that, under suitable conditions, if a sequence of degree sequences c...
We consider a family of random graphs with a given expected degree sequence. Each edge is chosen ind...
A strongly connected component of a directed graph G is a maximal subgraph H of G such that for each...
AMS Subject Classication: 05C80 Abstract. We consider a family of random graphs with a given expecte...
We consider some models of random graphs and directed graphs and investigate their behavior near thr...
AbstractLet G be a given graph (modelling a communication network) which we assume suffers from stat...
We consider random graphs with a fixed degree sequence. Molloy and Reed [11, 12] studied how the siz...