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Main Authors: Du, Xiaojing, Yang, Feiyu, Gao, Wentao, Chen, Xiongren
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.08544
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author Du, Xiaojing
Yang, Feiyu
Gao, Wentao
Chen, Xiongren
author_facet Du, Xiaojing
Yang, Feiyu
Gao, Wentao
Chen, Xiongren
contents As network data applications continue to expand, causal inference within networks has garnered increasing attention. However, hidden confounders complicate the estimation of causal effects. Most methods rely on the strong ignorability assumption, which presumes the absence of hidden confounders-an assumption that is both difficult to validate and often unrealistic in practice. To address this issue, we propose CgNN, a novel approach that leverages network structure as instrumental variables (IVs), combined with graph neural networks (GNNs) and attention mechanisms, to mitigate hidden confounder bias and improve causal effect estimation. By utilizing network structure as IVs, we reduce confounder bias while preserving the correlation with treatment. Our integration of attention mechanisms enhances robustness and improves the identification of important nodes. Validated on two real-world datasets, our results demonstrate that CgNN effectively mitigates hidden confounder bias and offers a robust GNN-driven IV framework for causal inference in complex network data.
format Preprint
id arxiv_https___arxiv_org_abs_2409_08544
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Causal GNNs: A GNN-Driven Instrumental Variable Approach for Causal Inference in Networks
Du, Xiaojing
Yang, Feiyu
Gao, Wentao
Chen, Xiongren
Machine Learning
As network data applications continue to expand, causal inference within networks has garnered increasing attention. However, hidden confounders complicate the estimation of causal effects. Most methods rely on the strong ignorability assumption, which presumes the absence of hidden confounders-an assumption that is both difficult to validate and often unrealistic in practice. To address this issue, we propose CgNN, a novel approach that leverages network structure as instrumental variables (IVs), combined with graph neural networks (GNNs) and attention mechanisms, to mitigate hidden confounder bias and improve causal effect estimation. By utilizing network structure as IVs, we reduce confounder bias while preserving the correlation with treatment. Our integration of attention mechanisms enhances robustness and improves the identification of important nodes. Validated on two real-world datasets, our results demonstrate that CgNN effectively mitigates hidden confounder bias and offers a robust GNN-driven IV framework for causal inference in complex network data.
title Causal GNNs: A GNN-Driven Instrumental Variable Approach for Causal Inference in Networks
topic Machine Learning
url https://arxiv.org/abs/2409.08544