Multi-layer dissolution exponential-family models for weighted signed networks

Understanding the structure of weighted signed networks is essential for analysing social systems in which relationships vary both in sign and strength. Despite significant advances in statistical network analysis, there is still a lack of statistical models that can jointly and rigorously account for both the sign and strength of relationships in networks. We introduce a multi-layer dissolution exponential random graph modelling framework that jointly captures the signed and weighted processes, conditional on the observed interaction structure. The framework enables rigorous assessment of structural balance effects while fully accounting for edge weights. To enhance inference, we adopt a fully-probabilistic Bayesian hierarchical approach that partially pools information across layers, with parameters estimated via an adaptive approximate exchange algorithm. We demonstrate the flexibility and explanatory power of the proposed methodology by applying it to bill sponsorship data from the 108th US Senate, revealing complex patterns of signed and weighted interactions and structural balance effects that traditional approaches are unable to capture.