<p>Examples of two different dynamic networks, (a) and (b), that lead to the same static network (c) when aggregated over time.</p
Discovery of evolution chains Discovery of change patterns Change mining in networked data a b s t r...
<p>A simple example of the network evolution driven by homophily in local structure.</p
a) Progression of the order parameter of an example network over time, with the calculated synchrony...
<p>(A) An illustration that how these landmarks forming a sub-network. (B) A real example that two g...
Example of a network, its transition function, and its initial and desired states.</p
A) A non-centralised ‘ring’ network. B) A maximally centralised ‘star’ network.</p
<p>(a) The initial network and (b) The final network evolved by the proposed PMM.</p
<p>A core species has L>2 and a tail species has L≤2. L of a species is its number of links to other...
<p>Examples of the network configurations included in the dyadic dependent exponential random graph ...
Inspecting the dynamics of networks opens a new dimension in understanding the interactions among th...
We examine the dynamic formation and stochastic evolution of networks connecting individuals. The pa...
<p>Comparison of statistical features of networks before and after coevolution.</p
The dynamics of real-world systems often involve multiple processes that influence system state. The...
Most of the works on learning from networked data assume that the network is static. In this paper w...
<p>One parameter is the length of the temporal window during which interactions are aggregated. In o...
Discovery of evolution chains Discovery of change patterns Change mining in networked data a b s t r...
<p>A simple example of the network evolution driven by homophily in local structure.</p
a) Progression of the order parameter of an example network over time, with the calculated synchrony...
<p>(A) An illustration that how these landmarks forming a sub-network. (B) A real example that two g...
Example of a network, its transition function, and its initial and desired states.</p
A) A non-centralised ‘ring’ network. B) A maximally centralised ‘star’ network.</p
<p>(a) The initial network and (b) The final network evolved by the proposed PMM.</p
<p>A core species has L>2 and a tail species has L≤2. L of a species is its number of links to other...
<p>Examples of the network configurations included in the dyadic dependent exponential random graph ...
Inspecting the dynamics of networks opens a new dimension in understanding the interactions among th...
We examine the dynamic formation and stochastic evolution of networks connecting individuals. The pa...
<p>Comparison of statistical features of networks before and after coevolution.</p
The dynamics of real-world systems often involve multiple processes that influence system state. The...
Most of the works on learning from networked data assume that the network is static. In this paper w...
<p>One parameter is the length of the temporal window during which interactions are aggregated. In o...
Discovery of evolution chains Discovery of change patterns Change mining in networked data a b s t r...
<p>A simple example of the network evolution driven by homophily in local structure.</p
a) Progression of the order parameter of an example network over time, with the calculated synchrony...
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