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Autori principali: Gavra, Ioana, Guichard-Sustowski, Ketsia, Marrec, Loïc Le
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2512.15570
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author Gavra, Ioana
Guichard-Sustowski, Ketsia
Marrec, Loïc Le
author_facet Gavra, Ioana
Guichard-Sustowski, Ketsia
Marrec, Loïc Le
contents In many real-world contexts, such as social or transport networks, data exhibit both structural connectivity and node-level attributes. For example, roads in a transport network can be characterized not only by their connectivity but also by traffic flow or speed profiles. Understanding such systems therefore requires jointly analyzing the network structure and node attributes, a challenge addressed by attributed graph partitioning, which clusters nodes based on both connectivity and attributes. In this work, we adapt distance-based methods for this task, including Fréchet $k$-means and optimal transport-based approaches based on Gromov--Wasserstein (GW) discrepancy. We investigate how GW methods, traditionally used for general-purpose tasks such as graph matching, can be specifically adapted for node partitioning, an area that has been relatively underexplored. In the context of node-attributed graphs, we introduce an adaptation of the Fused GW method, offering theoretical guarantees and the ability to handle heterogeneous attribute types. Additionally, we propose to incorporate distance-based embeddings to enhance performance. The proposed approaches are systematically evaluated using a dedicated simulation framework and illustrated on a real-world transportation dataset. Experiments investigate the influence of target choice, assess robustness to noise, and provide practical guidance for attributed graph clustering. In the context of road networks, our results demonstrate that these methods can effectively leverage both structural and attribute information to reveal meaningful clusters, offering insights for improved network understanding.
format Preprint
id arxiv_https___arxiv_org_abs_2512_15570
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Optimal Transport-Based Clustering of Attributed Graphs with an Application to Road Traffic Data
Gavra, Ioana
Guichard-Sustowski, Ketsia
Marrec, Loïc Le
Methodology
62H30
G.3
In many real-world contexts, such as social or transport networks, data exhibit both structural connectivity and node-level attributes. For example, roads in a transport network can be characterized not only by their connectivity but also by traffic flow or speed profiles. Understanding such systems therefore requires jointly analyzing the network structure and node attributes, a challenge addressed by attributed graph partitioning, which clusters nodes based on both connectivity and attributes. In this work, we adapt distance-based methods for this task, including Fréchet $k$-means and optimal transport-based approaches based on Gromov--Wasserstein (GW) discrepancy. We investigate how GW methods, traditionally used for general-purpose tasks such as graph matching, can be specifically adapted for node partitioning, an area that has been relatively underexplored. In the context of node-attributed graphs, we introduce an adaptation of the Fused GW method, offering theoretical guarantees and the ability to handle heterogeneous attribute types. Additionally, we propose to incorporate distance-based embeddings to enhance performance. The proposed approaches are systematically evaluated using a dedicated simulation framework and illustrated on a real-world transportation dataset. Experiments investigate the influence of target choice, assess robustness to noise, and provide practical guidance for attributed graph clustering. In the context of road networks, our results demonstrate that these methods can effectively leverage both structural and attribute information to reveal meaningful clusters, offering insights for improved network understanding.
title Optimal Transport-Based Clustering of Attributed Graphs with an Application to Road Traffic Data
topic Methodology
62H30
G.3
url https://arxiv.org/abs/2512.15570