PACS 89.75.Fb – Structures and organization in complex systems Abstract – We study the growth of bipartite networks in which the number of nodes in one of the partitions is kept fixed while the other partition is allowed to grow. We study random and preferential attachment as well as combination of both. We derive the exact analytical expression for the degree-distribution of all these different types of attachments while assuming that edges are incorporated sequentially, i.e., a single edge is added to the growing network in a time step. We also provide an approximate expression for the case when more than one edges are added in a time step. We show that depending on the relative weight between random and preferential attachments, the degr...
Ganguly N, Ghosh S, Krüger T, Srivastava A. Degree distributions of evolving alphabetic bipartite ne...
Our work introduces an approach for estimating the contribution of attachment mechanisms to the for...
We deal with a general preferential attachment graph model with multiple type edges. The types are c...
Networks with bimodal degree distribution are most robust to targeted and random attacks. We present...
We obtain closed form expressions for the expected conditional degree distribution and the joint deg...
Bipartite systems show remarkable variations in their topological asymptotic properties, e...
International audienceBipartite systems show remarkable variations in their topological asymptotic p...
Abstract. The combination of growth and preferential attachment is responsible for the power-law dis...
In a 2-parameter scale free model of random graphs it is shown that the asymptotic degree distributi...
We introduce a collection of complex networks generated by a combination of preferential attachment ...
We introduce a fully nonhierarchical network growing mechanism, that furthermore does not impose exp...
We generalize the Poissonian evolving random graph model of M. Bauer and D. Bernard (2003), to deal...
In this paper we study the degree distribution and the two-node degree correlations in growing netwo...
International audienceThe degree distributions of complex networks are usually considered to follow ...
In this paper, we present a simple model of scale-free networks that incorporates both preferential ...
Ganguly N, Ghosh S, Krüger T, Srivastava A. Degree distributions of evolving alphabetic bipartite ne...
Our work introduces an approach for estimating the contribution of attachment mechanisms to the for...
We deal with a general preferential attachment graph model with multiple type edges. The types are c...
Networks with bimodal degree distribution are most robust to targeted and random attacks. We present...
We obtain closed form expressions for the expected conditional degree distribution and the joint deg...
Bipartite systems show remarkable variations in their topological asymptotic properties, e...
International audienceBipartite systems show remarkable variations in their topological asymptotic p...
Abstract. The combination of growth and preferential attachment is responsible for the power-law dis...
In a 2-parameter scale free model of random graphs it is shown that the asymptotic degree distributi...
We introduce a collection of complex networks generated by a combination of preferential attachment ...
We introduce a fully nonhierarchical network growing mechanism, that furthermore does not impose exp...
We generalize the Poissonian evolving random graph model of M. Bauer and D. Bernard (2003), to deal...
In this paper we study the degree distribution and the two-node degree correlations in growing netwo...
International audienceThe degree distributions of complex networks are usually considered to follow ...
In this paper, we present a simple model of scale-free networks that incorporates both preferential ...
Ganguly N, Ghosh S, Krüger T, Srivastava A. Degree distributions of evolving alphabetic bipartite ne...
Our work introduces an approach for estimating the contribution of attachment mechanisms to the for...
We deal with a general preferential attachment graph model with multiple type edges. The types are c...