The “order for free” exhibited by some classes of system has been exploited by natural selection in order to build systems capable of exhibiting complex behaviour. Here we explore the impact of one ordering constraint, spatial embedding, on the dynamical complexity of networks. We apply a measure of functional complexity derived from information theory to a set of spatially embedded network models in order to make some preliminary characterisations of the contribution of space to the dynamics (rather than mere structure) of complex systems. Although our measure of dynamical complexity hinges on a balance between functional integration and segregation, which seem related to an understanding of the small-world property, we demonstrate that sm...
Complexity science is the study of systems that give rise to a priori unexpected macroscopic patter...
Living systems are organised in space. This imposes constraints on both their structural form and, c...
This thesis examines the nature of complexity in automata networks, andin particular, the necessary ...
To gain a deeper understanding of the impact of spatial embedding on the dynamics of complex systems...
We introduce and discuss the role of spatial embedding as an enabling constraint on complex system s...
none2In the past decade, complexity has become an important and fascinating domain for advanced rese...
We review and discuss the structural consequences of embedding a random network within a metric spac...
Many real-world networks analyzed in modern network theory have a natural spatial element; e.g., the...
Geometric constraints impact the formation of a broad range of spatial networks, from amino acid cha...
How complex is the spatial economy? Some apostles of complexity argue that complex behaviour can ari...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article dis...
We introduce the concept of communicability angle between a pair of nodes in a graph. We provide str...
<p>Dependence of the complexity measures on the size <i>n</i> (<i>x</i>-axis) of small-world network...
Dimension is a fundamental property of objects and the space in which they are embedded. Yet ideal n...
The small-world phenomenon, popularly known as six degrees of separation, has been mathematically fo...
Complexity science is the study of systems that give rise to a priori unexpected macroscopic patter...
Living systems are organised in space. This imposes constraints on both their structural form and, c...
This thesis examines the nature of complexity in automata networks, andin particular, the necessary ...
To gain a deeper understanding of the impact of spatial embedding on the dynamics of complex systems...
We introduce and discuss the role of spatial embedding as an enabling constraint on complex system s...
none2In the past decade, complexity has become an important and fascinating domain for advanced rese...
We review and discuss the structural consequences of embedding a random network within a metric spac...
Many real-world networks analyzed in modern network theory have a natural spatial element; e.g., the...
Geometric constraints impact the formation of a broad range of spatial networks, from amino acid cha...
How complex is the spatial economy? Some apostles of complexity argue that complex behaviour can ari...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article dis...
We introduce the concept of communicability angle between a pair of nodes in a graph. We provide str...
<p>Dependence of the complexity measures on the size <i>n</i> (<i>x</i>-axis) of small-world network...
Dimension is a fundamental property of objects and the space in which they are embedded. Yet ideal n...
The small-world phenomenon, popularly known as six degrees of separation, has been mathematically fo...
Complexity science is the study of systems that give rise to a priori unexpected macroscopic patter...
Living systems are organised in space. This imposes constraints on both their structural form and, c...
This thesis examines the nature of complexity in automata networks, andin particular, the necessary ...