We investigate the growth of connectivity in a network. In our model, starting with a set of disjoint nodes, links are added sequentially. Each link connects two nodes, and the connection rate governing this random process is proportional to the degrees of the two nodes. Interestingly, this network exhibits two abrupt transitions, both occurring at finite times. The first is a percolation transition in which a giant component, containing a finite fraction of all nodes, is born. The second is a condensation transition in which the entire system condenses into a single, fully connected, component. We derive the size distribution of connected components as well as the degree distribution, which is purely exponential throughout the evolution. F...
14 pages, 1 figureNetworks growing according to the rule that every new node has a probability p_k o...
Condensation phenomenon is often observed in social networks such as Twitter where one “superstar” v...
We introduce a growing network model, the copying model, in which a new node attaches to a randomly ...
Recent reports suggest that evolving large-scale networks exhibit "explosive percolation": a large f...
A model for growing information networks is introduced where nodes receive new links through j-redir...
We present a simple model of network growth and solve it by writing the dynamic equations for its ma...
We propose a mathematical description of a dynamic network model in which the number of links fluctu...
33 pages, 3 figuresWe introduce a new oriented evolving graph model inspired by biological networks....
We examine the global organization of growing networks in which a new vertex is attached to already ...
Percolation theory concerns the emergence of connected clusters that percolate through a networked s...
This thesis consists of studies of network processes with an emphasis on phase transitions. Various ...
We consider a class of random, weighted networks, obtained through a redefinition of patterns in ...
Recent extensive studies of the explosive percolation (EP) model revealed that the EP transition is ...
A general $(k,l)$ clique community of a network, which consists of adjacent k-cliques sharing at le...
We derive percolation results in the continuum plane that lead to what appears to be a general tende...
14 pages, 1 figureNetworks growing according to the rule that every new node has a probability p_k o...
Condensation phenomenon is often observed in social networks such as Twitter where one “superstar” v...
We introduce a growing network model, the copying model, in which a new node attaches to a randomly ...
Recent reports suggest that evolving large-scale networks exhibit "explosive percolation": a large f...
A model for growing information networks is introduced where nodes receive new links through j-redir...
We present a simple model of network growth and solve it by writing the dynamic equations for its ma...
We propose a mathematical description of a dynamic network model in which the number of links fluctu...
33 pages, 3 figuresWe introduce a new oriented evolving graph model inspired by biological networks....
We examine the global organization of growing networks in which a new vertex is attached to already ...
Percolation theory concerns the emergence of connected clusters that percolate through a networked s...
This thesis consists of studies of network processes with an emphasis on phase transitions. Various ...
We consider a class of random, weighted networks, obtained through a redefinition of patterns in ...
Recent extensive studies of the explosive percolation (EP) model revealed that the EP transition is ...
A general $(k,l)$ clique community of a network, which consists of adjacent k-cliques sharing at le...
We derive percolation results in the continuum plane that lead to what appears to be a general tende...
14 pages, 1 figureNetworks growing according to the rule that every new node has a probability p_k o...
Condensation phenomenon is often observed in social networks such as Twitter where one “superstar” v...
We introduce a growing network model, the copying model, in which a new node attaches to a randomly ...