Giselle Zeno scite author profile

Giselle Zeno

2Publications

16Citation Statements Received

59Citation Statements Given

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Purdue University System

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DYMOND: DYnamic MOtif-NoDes Network Generative Model

Zeno

Fond

Neville

2021

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Motifs, which have been established as building blocks for network structure, move beyond pair-wise connections to capture longerrange correlations in connections and activity. In spite of this, there are few generative graph models that consider higher-order network structures and even fewer that focus on using motifs in models of dynamic graphs. Most existing generative models for temporal graphs strictly grow the networks via edge addition, and the models are evaluated using static graph structure metrics-which do not adequately capture the temporal behavior of the network. To address these issues, in this work we propose DYnamic MOtif-NoDes (DYMOND)-a generative model that considers (i) the dynamic changes in overall graph structure using temporal motif activity and (ii) the roles nodes play in motifs (e.g., one node plays the hub role in a wedge, while the remaining two act as spokes). We compare DYMOND to three dynamic graph generative model baselines on real-world networks and show that DYMOND performs better at generating graph structure and node behavior similar to the observed network. We also propose a new methodology to adapt graph structure metrics to better evaluate the temporal aspect of the network. These metrics take into account the changes in overall graph structure and the individual nodes' behavior over time.

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Dynamic Network Modeling from Motif-Activity

Zeno

Fond

Neville

2020

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Giselle Zeno

DYMOND: DYnamic MOtif-NoDes Network Generative Model

Dynamic Network Modeling from Motif-Activity

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