Xiaojing Du, Feiyu Yang, Wentao Gao, Xiongren Chen
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引用次数: 0
摘要
随着网络数据应用的不断扩大,网络内的因果推断越来越受到关注。然而,隐藏混杂因素使因果效应的估计变得复杂。大多数方法都依赖于强可识别性假设,该假设假定不存在隐藏混杂因素--这种假设既难以验证,在实践中也往往不现实。为了解决这个问题,我们提出了 CgNN,这是一种将网络结构作为工具变量(IVs)的新方法,结合图神经网络(GNNs)和注意力机制,以减轻隐藏混杂因素偏差并改进因果效应估计。通过利用网络结构作为 IVs,我们减少了混杂因素偏差,同时保留了与治疗的相关性。我们对注意力机制的整合增强了稳健性,并改善了重要节点的识别。通过对两个真实世界数据集的验证,我们的结果表明,CgNN 有效地减轻了隐藏的混杂因素偏差,为复杂网络数据的因果推断提供了一个稳健的 GNN 驱动 IV 框架。
Causal GNNs: A GNN-Driven Instrumental Variable Approach for Causal Inference in Networks
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.
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