Natural and man-made transport webs are frequently dominated by dense sets of nested cycles. The architecture of these networks, as defined by the topology and edge weights, determines how efficiently the networks perform their function. Yet, the set of tools that can characterize such a weighted cycle-rich architecture in a physically relevant, mathematically compact way is sparse. In order to fill this void, we have developed a new algorithm that rests on an abstraction of the physical “tiling” in the case of a two-dimensional network to an effective tiling of an abstract surface in 3-space that the network may be thought to sit in. Generically, these abstract surfaces are richer than the flat plane because there are now two families of f...
<div><p>The statistical mechanical approach to complex networks is the dominant paradigm in describi...
Networked structures arise in a wide array of different contexts such as technological and transport...
To better understand the organization of overlapping modules in large networks with respect to flow,...
Natural and man-made transport webs are frequently dominated by dense sets of nested cycles. The arc...
Biology presents many examples of planar distribution and structural networks having dense sets of c...
Biology presents many examples of planar distribution and structural networks having dense sets of c...
The statistical mechanical approach to complex networks is the dominant paradigm in describing natur...
Two common features of many large real networks are that they are sparse and that they have strong c...
Distribution networks—from vasculature to urban transportation pathways—are spatially embedded netwo...
<p><i>(a)</i> The weight rank filtration proceeds from the bottom up. Weighted holes (colored) and c...
Graph theoretical analysis has played a key role in characterizing global features of the topology o...
Graph theoretical analysis has played a key role in characterizing global features of the topology o...
The statistical mechanical approach to complex networks is the dominant paradigm in describing natur...
We investigate the role that network morphology plays in setting up the routing interactions that go...
Obtaining realistic network topologies is crucial when designing routing protocols or trying to stud...
<div><p>The statistical mechanical approach to complex networks is the dominant paradigm in describi...
Networked structures arise in a wide array of different contexts such as technological and transport...
To better understand the organization of overlapping modules in large networks with respect to flow,...
Natural and man-made transport webs are frequently dominated by dense sets of nested cycles. The arc...
Biology presents many examples of planar distribution and structural networks having dense sets of c...
Biology presents many examples of planar distribution and structural networks having dense sets of c...
The statistical mechanical approach to complex networks is the dominant paradigm in describing natur...
Two common features of many large real networks are that they are sparse and that they have strong c...
Distribution networks—from vasculature to urban transportation pathways—are spatially embedded netwo...
<p><i>(a)</i> The weight rank filtration proceeds from the bottom up. Weighted holes (colored) and c...
Graph theoretical analysis has played a key role in characterizing global features of the topology o...
Graph theoretical analysis has played a key role in characterizing global features of the topology o...
The statistical mechanical approach to complex networks is the dominant paradigm in describing natur...
We investigate the role that network morphology plays in setting up the routing interactions that go...
Obtaining realistic network topologies is crucial when designing routing protocols or trying to stud...
<div><p>The statistical mechanical approach to complex networks is the dominant paradigm in describi...
Networked structures arise in a wide array of different contexts such as technological and transport...
To better understand the organization of overlapping modules in large networks with respect to flow,...