Graph Mixing Additive Networks

Maya Bechler-Speicher; Andrea Zerio; Maor Huri; Marie Vibeke Vestergaard; Ran Gilad-Bachrach; Tine Jess; Samir Bhatt; Aleksejs Sazonovs

Graph Mixing Additive Networks

Maya Bechler-Speicher, Andrea Zerio, Maor Huri, Marie Vibeke Vestergaard, Ran Gilad-Bachrach, Tine Jess, Samir Bhatt, Aleksejs Sazonovs

Published: 23 Sept 2025, Last Modified: 27 Nov 2025NeurReps 2025 PosterEveryoneRevisionsBibTeXCC BY 4.0

Keywords: Graph Learning, Graph Representations, Interpretability, Explainability

TL;DR: We present a novel interpretable graph learning model for learning over sets of temporally-sparse data

Abstract: We introduce GMAN, a flexible, interpretable, and expressive framework that extends Graph Neural Additive Networks (GNANs) to learn from sets of sparse time-series data. GMAN represents each time-dependent trajectory as a directed graph and applies an enriched, more expressive GNAN to each graph. It allows users to control the interpretability-expressivity trade-off by grouping features and graphs to encode priors, and it provides feature, node, and graph-level interpretability. On real-world datasets, including mortality prediction from blood tests and fake-news detection, GMAN outperforms strong non-interpretable black-box baselines while delivering actionable, domain-aligned explanations.

Submission Number: 34

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