Geometric constraints impact the formation of a broad range of spatial networks, from amino acid chains folding to proteins structures to rearranging particle aggregates. How the network of interactions dynamically self-organizes in such systems is far from fully understood. Here, we analyze a class of spatial network formation processes by introducing a mapping from geometric to graph-theoretic constraints. Combining stochastic and mean field analyses yields an algebraic scaling law for the extent (graph diameter) of the resulting networks with system size, in contrast to logarithmic scaling known for networks without constraints. Intriguingly, the exponent falls between that of self-avoiding random walks and that of space filling arrangem...
Abstract. We propose a generalized framework to analyse constraints and representations in growing c...
In this paper we introduce a new model of spatial network growth in which nodes are placed at random...
Growing networks have a causal structure. We show that the causality strongly influences the scaling...
Geometric constraints impact the formation of a broad range of spatial networks, from amino acid cha...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
Finding a good network null model for protein-protein interaction (PPI) networks is a fundamental is...
Many inherently spatial systems have been represented using networks. This thesis contributes to the...
Spatial biological networks are abundant on all scales of life, from single cells to ecosystems, and...
abstract: Two classes of scaling behaviours, namely the super-linear scaling of links or activities,...
Motivation: The network architecture of physical protein interactions is an important determinant fo...
Many real-world networks of interest are embedded in physical space. We present a new random graph m...
Spatial biological networks are abundant on all scales of life, from single cells to ecosystems, and...
Cell organization is governed and maintained via specific interactions between its constituent macro...
Dimension is a fundamental property of objects and the space in which they are embedded. Yet ideal n...
Abstract. We propose a generalized framework to analyse constraints and representations in growing c...
In this paper we introduce a new model of spatial network growth in which nodes are placed at random...
Growing networks have a causal structure. We show that the causality strongly influences the scaling...
Geometric constraints impact the formation of a broad range of spatial networks, from amino acid cha...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
The intricate three-dimensional geometries of protein tertiary structures underlie protein function ...
Finding a good network null model for protein-protein interaction (PPI) networks is a fundamental is...
Many inherently spatial systems have been represented using networks. This thesis contributes to the...
Spatial biological networks are abundant on all scales of life, from single cells to ecosystems, and...
abstract: Two classes of scaling behaviours, namely the super-linear scaling of links or activities,...
Motivation: The network architecture of physical protein interactions is an important determinant fo...
Many real-world networks of interest are embedded in physical space. We present a new random graph m...
Spatial biological networks are abundant on all scales of life, from single cells to ecosystems, and...
Cell organization is governed and maintained via specific interactions between its constituent macro...
Dimension is a fundamental property of objects and the space in which they are embedded. Yet ideal n...
Abstract. We propose a generalized framework to analyse constraints and representations in growing c...
In this paper we introduce a new model of spatial network growth in which nodes are placed at random...
Growing networks have a causal structure. We show that the causality strongly influences the scaling...