Networks are commonly observed structures in complex systems with interacting and interdependent parts that self-organize. For nonlinearly growing networks, when the total number of connections increases faster than the total number of nodes, the network is said to accelerate. We propose a systematic model for the dynamics of growing networks represented by distribution kinetics equations. We define the nodal-linkage distribution, construct a population dynamics equation based on the association-dissociation process, and perform the moment calculations to describe the dynamics of such networks. For nondirectional networks with finite numbers of nodes and connections, the moments are the total number of nodes, the total number of c...
We generalize the scale-free network model of Barabási and Albert (Science, 286 (1999) 509) by propo...
We examine the global organization of growing networks in which a new vertex is attached to already ...
Networks representing social systems display specific features that put them apart from biological a...
In many real-world networks, the rates of node and link addition are time dependent. This observatio...
A key ingredient of many current models proposed to capture the topological evolution of complex net...
We propose a new preferential attachment–based network growth model in order to explain two properti...
Network models with preferential attachment, where new nodes are injected into the network and form ...
We propose a new preferential attachment-based network growth model in order to explain two properti...
Many growing networks possess accelerating statistics where the number of links added with each new ...
We show that to explain the growth of the citation network by preferential attachment (PA), one has ...
Abstract. The combination of growth and preferential attachment is responsible for the power-law dis...
Several classical system dynamics models, such as models of disease spread, and technology adoption,...
We investigate the growth of connectivity in a network. In our model, starting with a set of disjoin...
Preferential attachment is one possible way to obtain a scale-free network. We develop a self-consis...
Preferential attachment drives the evolution of many complex networks. Its analytical studies mostly...
We generalize the scale-free network model of Barabási and Albert (Science, 286 (1999) 509) by propo...
We examine the global organization of growing networks in which a new vertex is attached to already ...
Networks representing social systems display specific features that put them apart from biological a...
In many real-world networks, the rates of node and link addition are time dependent. This observatio...
A key ingredient of many current models proposed to capture the topological evolution of complex net...
We propose a new preferential attachment–based network growth model in order to explain two properti...
Network models with preferential attachment, where new nodes are injected into the network and form ...
We propose a new preferential attachment-based network growth model in order to explain two properti...
Many growing networks possess accelerating statistics where the number of links added with each new ...
We show that to explain the growth of the citation network by preferential attachment (PA), one has ...
Abstract. The combination of growth and preferential attachment is responsible for the power-law dis...
Several classical system dynamics models, such as models of disease spread, and technology adoption,...
We investigate the growth of connectivity in a network. In our model, starting with a set of disjoin...
Preferential attachment is one possible way to obtain a scale-free network. We develop a self-consis...
Preferential attachment drives the evolution of many complex networks. Its analytical studies mostly...
We generalize the scale-free network model of Barabási and Albert (Science, 286 (1999) 509) by propo...
We examine the global organization of growing networks in which a new vertex is attached to already ...
Networks representing social systems display specific features that put them apart from biological a...