Scalable Signed Exponential Random Graph Models under Local Dependence

Music City Center 

Traditional network analysis focuses on binary edges, while real-world relationships are more nuanced, encompassing cooperation, neutrality, and conflict. The rise of negative ties in social media discussions spurred interest in analyzing signed interactions, especially in polarized debates. However, the vast data generated by digital networks presents challenges for traditional methods like Stochastic Block Models (SBM) and Exponential Family Random Graph Models (ERGM), particularly due to the homogeneity assumption and global dependence, which become increasingly unrealistic as network size grows. To address this, we propose a novel method that combines the strengths of SBM and ERGM while mitigating their weaknesses by incorporating local dependence based on non-overlapping neighborhoods. Our approach involves a two-step process: first, decomposing the network into sub-networks using SBM approximation, and then estimating parameters using ERGM methods. We demonstrate the computational efficiency of our approach by applying it to a large signed Wikipedia network and validating our method on synthetic networks with up to 5,000 nodes.

Network Analysis

Exponential Random Graph Models

Signed Networks

Local Dependence

Large-Scale Networks