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GoT-WAVE: Temporal network alignment using graphlet-orbit transitions

Machine Learning 2018-08-27 v1 Social and Information Networks Machine Learning

Abstract

Global pairwise network alignment (GPNA) aims to find a one-to-one node mapping between two networks that identifies conserved network regions. GPNA algorithms optimize node conservation (NC) and edge conservation (EC). NC quantifies topological similarity between nodes. Graphlet-based degree vectors (GDVs) are a state-of-the-art topological NC measure. Dynamic GDVs (DGDVs) were used as a dynamic NC measure within the first-ever algorithms for GPNA of temporal networks: DynaMAGNA++ and DynaWAVE. The latter is superior for larger networks. We recently developed a different graphlet-based measure of temporal node similarity, graphlet-orbit transitions (GoTs). Here, we use GoTs instead of DGDVs as a new dynamic NC measure within DynaWAVE, resulting in a new approach, GoT-WAVE. On synthetic networks, GoT-WAVE improves DynaWAVE's accuracy by 25% and speed by 64%. On real networks, when optimizing only dynamic NC, each method is superior ~50% of the time. While DynaWAVE benefits more from also optimizing dynamic EC, only GoT-WAVE can support directed edges. Hence, GoT-WAVE is a promising new temporal GPNA algorithm, which efficiently optimizes dynamic NC. Future work on better incorporating dynamic EC may yield further improvements.

Keywords

Cite

@article{arxiv.1808.08195,
  title  = {GoT-WAVE: Temporal network alignment using graphlet-orbit transitions},
  author = {David Aparício and Pedro Ribeiro and Tijana Milenković and Fernando Silva},
  journal= {arXiv preprint arXiv:1808.08195},
  year   = {2018}
}
R2 v1 2026-06-23T03:43:05.629Z