Random Networks with Sublinear Preferential Attachment: the Giant Component
نویسندگان
چکیده
We study a dynamical random network model in which at every construction step a new vertex is introduced and attached to every existing vertex independently with a probability proportional to a concave function f of its current degree. We give a criterion for the existence of a giant component, which is both necessary and sufficient, and which becomes explicit when f is linear. Otherwise it allows the derivation of explicit necessary and sufficient conditions, which are often fairly close. We give an explicit criterion to decide whether the giant component is robust under random removal of edges. We also determine asymptotically the size of the giant component and the empirical distribution of component sizes in terms of the survival probability and size distribution of a multitype branching random walk associated with f .
منابع مشابه
Typical Distances in Ultrasmall Random Networks
We show that in preferential attachment models with power-law exponent τ ∈ (2, 3) the distance between randomly chosen vertices in the giant component is asymptotically equal to (4 + o(1)) log logN − log(τ−2) , where N denotes the number of nodes. This is twice the value obtained for the configuration model with the same power-law exponent. The extra factor reveals the different structure of ty...
متن کاملComplex Graphs and Networks
Contents Preface vii Chapter 1. Graph Theory in the Information Age 1 1.1. Introduction 1 1.2. Basic definitions 3 1.3. Degree sequences and the power law 6 1.4. History of the power law 8 1.5. Examples of power law graphs 10 1.6. An outline of the book 17 Chapter 2. Old and New Concentration Inequalities 21 2.1. The binomial distribution and its asymptotic behavior 21 2.2. General Chernoff ine...
متن کاملNongrowing Preferential Attachment Random Graphs
We consider an edge rewiring process which is widely used to model the dynamics of scale-free weblike networks. This process uses preferential attachment and operates on sparse multigraphs with n vertices and m edges. We prove that its mixing time is optimal and develop a framework which simplifies the calculation of graph properties in the steady state. The applicability of this framework is d...
متن کاملPreferential attachment in randomly grown networks
We reintroduce the model of Callaway et al. (2001) as a special case of a more general model for random network growth. Vertices are added to the graph at a rate of 1, while edges are introduced at rate δ. Rather than edges being introduced at random, we allow for a degree of preferential attachment with a linear attachment kernel, parametrised by m. The original model is recovered in the limit...
متن کاملAnalysis of centrality in sublinear preferential attachment trees via the CMJ branching process
We investigate centrality properties and the existence of a finite confidence set for the rootnode in growing random tree models. We show that a continuous time branching processescalled the Crump-Mode-Jagers (CMJ) branching process is well-suited to analyze such randomtrees, and establish centrality and root inference properties of sublinear preferential attachmenttrees. We...
متن کامل