6 pages, 1 figureWe study spatial networks constructed by randomly placing nodes on a manifold and joining two nodes with an edge whenever their distance is less than a certain cutoff. We derive the general expression for the connectivity distribution of such networks as a functional of the distribution of the nodes. We show that for regular spatial densities, the corresponding spatial network has a connectivity distribution decreasing faster than an exponential. In contrast, we also show that scale-free networks with a power law decreasing connectivity distribution are obtained when a certain information measure of the node distribution (integral of higher powers of the distribution) diverges. We illustrate our results on a simple example ...
(A) Spatial networks need to be defined in terms of dimension, layout, metric, boundary conditions, ...
Inspired by the structure of technological networks, we discuss network evolution mechanisms which g...
In recent years great attention has been paid to complex networks and to their related theories and ...
We review and discuss the structural consequences of embedding a random network within a metric spac...
In this paper we introduce a new model of spatial network growth in which nodes are placed at random...
Empirical studies on the spatial structures in several real transport networks reveal that the dista...
We review mathematically tractable models for connected networks on random points in the plane, emph...
Spatial networks, in which nodes and edges are embedded in space, play a vital role in the study of ...
Many conceptual studies of local cortical networks assume completely random wiring. For spatially ex...
Andrew Wade Phase transitions for random spatial networks Spatial networks I Networks are everywhere...
We investigate the scaling laws of the degree distribution in an evolving spatial network where the ...
In this paper we introduce a model of spatial network growth in which nodes are placed at randomly s...
Many inherently spatial systems have been represented using networks. This thesis contributes to the...
Spatial networks are networks where nodes are located in a space equipped with a metric. Typically, ...
We analyze complexity in spatial network ensembles through the lens of graph entropy. Mathematically...
(A) Spatial networks need to be defined in terms of dimension, layout, metric, boundary conditions, ...
Inspired by the structure of technological networks, we discuss network evolution mechanisms which g...
In recent years great attention has been paid to complex networks and to their related theories and ...
We review and discuss the structural consequences of embedding a random network within a metric spac...
In this paper we introduce a new model of spatial network growth in which nodes are placed at random...
Empirical studies on the spatial structures in several real transport networks reveal that the dista...
We review mathematically tractable models for connected networks on random points in the plane, emph...
Spatial networks, in which nodes and edges are embedded in space, play a vital role in the study of ...
Many conceptual studies of local cortical networks assume completely random wiring. For spatially ex...
Andrew Wade Phase transitions for random spatial networks Spatial networks I Networks are everywhere...
We investigate the scaling laws of the degree distribution in an evolving spatial network where the ...
In this paper we introduce a model of spatial network growth in which nodes are placed at randomly s...
Many inherently spatial systems have been represented using networks. This thesis contributes to the...
Spatial networks are networks where nodes are located in a space equipped with a metric. Typically, ...
We analyze complexity in spatial network ensembles through the lens of graph entropy. Mathematically...
(A) Spatial networks need to be defined in terms of dimension, layout, metric, boundary conditions, ...
Inspired by the structure of technological networks, we discuss network evolution mechanisms which g...
In recent years great attention has been paid to complex networks and to their related theories and ...