Robust and efficient design of networks on a realistic geographical space is one of the important issues for the realization of dependable communication systems. In this paper, based on a percolation theory and a geometric graph property, we investigate such a design from the following viewpoints: 1) network evolution according to a spatially heterogeneous population, 2) trimodal low degrees for the tolerant connectivity against both failures and attacks, and 3) decentralized routing within short paths. Furthermore, we point out the weakened tolerance by geographical constraints on local cycles, and propose a practical strategy by adding a small fraction of shortcut links between randomly chosen nodes in order to improve the robustness to a...
Many complex systems can be described in terms of networks of interacting units. Recent studies have...
Abstract — Recent studies have shown that many real networks follow the power-law distribution of no...
The robustness of connectivity and the efficiency of paths are incompatible in many real networks. W...
The short paths between any two nodes and the robustness of connectivity are advanced properties of ...
Many real networks have a common topological structure called scale-free (SF) that follows a power l...
In a topological structure affected by geographical constraints on liking, the connectivity is weake...
Geographical networks have attracted much attention recently, and it has been shown that they are mo...
In real communication and transportation networks, the geographical positions of nodes are very impo...
Since a spatial distribution of communication requests is inhomogeneous and related to a population,...
Inspired by the structure of technological networks, we discuss network evolution mechanisms which g...
Kleinberg provides the first theoretical characterization of the algorithmic aspects of small-world ...
Many real-world infrastructure networks, such as power grids and communication networks, always depe...
We propose an interdependent random geometric graph (RGG) model for interdependent networks. Based o...
A growing family of random graphs is called robust if it retains a giant component after percolation...
AbstractSince a spatial distribution of communication requests is inhomogeneous and related to a pop...
Many complex systems can be described in terms of networks of interacting units. Recent studies have...
Abstract — Recent studies have shown that many real networks follow the power-law distribution of no...
The robustness of connectivity and the efficiency of paths are incompatible in many real networks. W...
The short paths between any two nodes and the robustness of connectivity are advanced properties of ...
Many real networks have a common topological structure called scale-free (SF) that follows a power l...
In a topological structure affected by geographical constraints on liking, the connectivity is weake...
Geographical networks have attracted much attention recently, and it has been shown that they are mo...
In real communication and transportation networks, the geographical positions of nodes are very impo...
Since a spatial distribution of communication requests is inhomogeneous and related to a population,...
Inspired by the structure of technological networks, we discuss network evolution mechanisms which g...
Kleinberg provides the first theoretical characterization of the algorithmic aspects of small-world ...
Many real-world infrastructure networks, such as power grids and communication networks, always depe...
We propose an interdependent random geometric graph (RGG) model for interdependent networks. Based o...
A growing family of random graphs is called robust if it retains a giant component after percolation...
AbstractSince a spatial distribution of communication requests is inhomogeneous and related to a pop...
Many complex systems can be described in terms of networks of interacting units. Recent studies have...
Abstract — Recent studies have shown that many real networks follow the power-law distribution of no...
The robustness of connectivity and the efficiency of paths are incompatible in many real networks. W...