Robert Jankowski, Pegah Hozhabrierdi, Marián Boguñá, M. Ángeles Serrano
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引用次数: 0
Abstract
In existing models and embedding methods of networked systems, node features describing their qualities are usually overlooked in favor of focusing solely on node connectivity. This study introduces FiD-Mercator, a model-based ultra-low dimensional reduction technique that integrates node features with network structure to create D-dimensional maps of complex networks in a hyperbolic space. This embedding method efficiently uses features as an initial condition, guiding the search of nodes’ coordinates toward an optimal solution. The research reveals that downstream task performance improves with the correlation between network connectivity and features, emphasizing the importance of such correlation for enhancing the description and predictability of real networks. Simultaneously, hyperbolic embedding’s ability to reproduce local network properties remains unaffected by the inclusion of features. The findings highlight the necessity for developing network embedding techniques capable of exploiting such correlations to optimize both network structure and feature association jointly in the future.
在现有的网络系统模型和嵌入方法中,描述其质量的节点特征通常被忽视,而只关注节点的连接性。本研究介绍的 FiD-Mercator 是一种基于模型的超低维缩减技术,它将节点特征与网络结构相结合,在双曲空间中创建复杂网络的 D 维映射。这种嵌入方法有效地将特征作为初始条件,引导节点坐标的搜索走向最优解。研究发现,下游任务的性能会随着网络连通性和特征之间的相关性而提高,从而强调了这种相关性对于增强真实网络的描述和可预测性的重要性。同时,双曲嵌入再现局部网络属性的能力不受包含特征的影响。这些发现突出表明,未来有必要开发能够利用这种相关性的网络嵌入技术,以共同优化网络结构和特征关联。
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