In this paper, we introduce a biologically inspired model to generate complex networks. In contrast to many other construction procedures for growing networks introduced so far, our method generates networks from one-dimensional symbol sequences that are related to the so called Collatz problem from number theory. The major purpose of the present paper is, first, to derive a symbol sequence from the Collatz problem, we call the step sequence, and investigate its structural properties. Second, we introduce a construction procedure for growing networks that is based on these step sequences. Third, we investigate the structural properties of this new network class including their finite scaling and asymptotic behavior of their complexity, aver...
We propose a simple mechanism for generating scale-free networks with degree exponent γ = 3, where t...
The emergence of social conventions in multi-agent systems has been analyzed mainly in settings whe...
This work describes how the formalization of complex network concepts in terms of discrete mathemati...
In this paper, we introduce a biologically inspired model to generate complex networks. In contrast ...
Complex networks describe a wide range of systems and structures in the world. Any real network can ...
AbstractLarge complex networks occur in many applications of computer science. The complex network z...
The parallel computational complexity or depth of growing network models is investigated. The networ...
p. 046101-1 - 046101-5A concept of neighborhood in complex networks is addressed based on the criter...
Background: Much work in systems biology, but also in the analysis of social network and communicati...
A great deal of work in recent years has been devoted to the topic of \complexity, ' its measur...
This research aims to identify strong structural features of real-world complex networks, sufficient...
Many real life networks present an average path length logarithmic with the number of nodes and a de...
peer reviewedWe previously introduced the concept of “set-complexity”, based on a context-dependent ...
The field of complex networks has seen a steady growth in the last decade, fuelled by an ever-growin...
Designing algorithms that generate networks with a given degree sequence while varying both subgraph...
We propose a simple mechanism for generating scale-free networks with degree exponent γ = 3, where t...
The emergence of social conventions in multi-agent systems has been analyzed mainly in settings whe...
This work describes how the formalization of complex network concepts in terms of discrete mathemati...
In this paper, we introduce a biologically inspired model to generate complex networks. In contrast ...
Complex networks describe a wide range of systems and structures in the world. Any real network can ...
AbstractLarge complex networks occur in many applications of computer science. The complex network z...
The parallel computational complexity or depth of growing network models is investigated. The networ...
p. 046101-1 - 046101-5A concept of neighborhood in complex networks is addressed based on the criter...
Background: Much work in systems biology, but also in the analysis of social network and communicati...
A great deal of work in recent years has been devoted to the topic of \complexity, ' its measur...
This research aims to identify strong structural features of real-world complex networks, sufficient...
Many real life networks present an average path length logarithmic with the number of nodes and a de...
peer reviewedWe previously introduced the concept of “set-complexity”, based on a context-dependent ...
The field of complex networks has seen a steady growth in the last decade, fuelled by an ever-growin...
Designing algorithms that generate networks with a given degree sequence while varying both subgraph...
We propose a simple mechanism for generating scale-free networks with degree exponent γ = 3, where t...
The emergence of social conventions in multi-agent systems has been analyzed mainly in settings whe...
This work describes how the formalization of complex network concepts in terms of discrete mathemati...