Abstract The traffic bottleneck plays a key role in most of the natural and artificial network. Here we present a simply model for bottleneck dynamical characteristics consideration the reliability on the complex network by taking into account the network topology characteristics and system size. We find that there is a critical rate of flow generation below which the network traffic is free but above which traffic congestion occurs. Also, it is found that random networks have larger critical flow generating rate than scale free ones. Analytical results may be practically useful for designing networks, especially for the urban traffic network. PACS numbers: 89.75.Hc Key words: bottleneck, complex network, traffic flow
The congestion transition triggered by multiple walkers walking along the shortest path on complex n...
Whether it be the passengers’ mobility demand in transportation systems, or the consumers’ energy de...
In a recent article, we studied the dynamics of traffic in complex networks [CITE]. In particular, ...
The problem of traffic congestion in complex networks is studied. Two kinds of complex network struc...
In the present paper, we consider three different types of networks (random, small-world, and scale...
Abstract- The problem of traffic congestion in complex net- between the caller node and receiver nod...
Many transport processes on networks depend crucially on the underlying network geometry, although t...
The conventional view of the congestion control problem in data networks is based on the principle t...
Many transport processes on networks depend crucially on the underlying network geometry, although t...
We propose a model of random diffusion to investigate flow fluctuations in complex networks. We deri...
We present a new load distribution mechanism and obtain the dynamic critical load-generating rate ba...
A traffic network can be viewed as a geometric graph with the nodes representing traffic infrastruct...
We consider two elementary (max-flow and uniform-flow) and two realistic (max-min fairness and propo...
This book offers a detailed investigation of breakdowns in traffic and transportation networks. It s...
The paper is concerned with the characterization of the relationship between topology and traffic dy...
The congestion transition triggered by multiple walkers walking along the shortest path on complex n...
Whether it be the passengers’ mobility demand in transportation systems, or the consumers’ energy de...
In a recent article, we studied the dynamics of traffic in complex networks [CITE]. In particular, ...
The problem of traffic congestion in complex networks is studied. Two kinds of complex network struc...
In the present paper, we consider three different types of networks (random, small-world, and scale...
Abstract- The problem of traffic congestion in complex net- between the caller node and receiver nod...
Many transport processes on networks depend crucially on the underlying network geometry, although t...
The conventional view of the congestion control problem in data networks is based on the principle t...
Many transport processes on networks depend crucially on the underlying network geometry, although t...
We propose a model of random diffusion to investigate flow fluctuations in complex networks. We deri...
We present a new load distribution mechanism and obtain the dynamic critical load-generating rate ba...
A traffic network can be viewed as a geometric graph with the nodes representing traffic infrastruct...
We consider two elementary (max-flow and uniform-flow) and two realistic (max-min fairness and propo...
This book offers a detailed investigation of breakdowns in traffic and transportation networks. It s...
The paper is concerned with the characterization of the relationship between topology and traffic dy...
The congestion transition triggered by multiple walkers walking along the shortest path on complex n...
Whether it be the passengers’ mobility demand in transportation systems, or the consumers’ energy de...
In a recent article, we studied the dynamics of traffic in complex networks [CITE]. In particular, ...