基于稳定对抗去偏的知识图公平表示学习研究

Yihe Wang, Mohammad Mahdi Khalili, X. Zhang
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引用次数: 1

摘要

知识图谱(Knowledge Graphs, KG)以其庞大的信息结构引起了越来越多的学术研究和工业应用的兴趣。最近的研究表明,在KG实体的学习表征中存在敏感属性(如性别和种族)方面的人口统计学偏见。这种偏见对特定人群产生了负面影响,尤其是少数民族和代表性不足的群体,并加剧了基于机器学习的人类不平等。通过同时训练特定任务的预测器和特定属性的敏感判别器,对抗学习被认为是缓解表征学习模型偏差的有效方法。然而,由于拓扑结构带来的独特挑战和知识实体之间的综合关系,在知识图表示学习中基于对抗性学习的去偏研究很少。在本文中,我们提出了一个框架来学习知识图挖掘中节点和边的无偏表示。具体来说,我们将一种简单而有效的归一化技术与图神经网络(gnn)相结合,以约束权重更新过程。此外,作为一篇正在进行的论文,我们还发现引入的权重归一化技术可以减轻对抗性贬低中不稳定的陷阱,从而实现公平和稳定的机器学习。我们在具有多个边类型和节点类型的基准图上评估了所提出的框架。实验结果表明,我们的模型在赔率平等的三个竞争基线上达到了相当或更好的性别公平。重要的是,我们在公平模型上的优势并没有牺牲知识图任务(即多类边缘分类)的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards Fair Representation Learning in Knowledge Graph with Stable Adversarial Debiasing
With graph-structured tremendous information, Knowledge Graphs (KG) aroused increasing interest in aca-demic research and industrial applications. Recent studies have shown demographic bias, in terms of sensitive attributes (e.g., gender and race), exist in the learned representations of KG entities. Such bias negatively affects specific popu-lations, especially minorities and underrepresented groups, and exacerbates machine learning-based human inequality. Adversariallearning is regarded as an effective way to alleviate bias in the representation learning model by simultaneously training a task-specific predictor and a sensitive attribute-specific discriminator. However, due to the unique challenge caused by topological structure and the comprehensive re-lationship between knowledge entities, adversarial learning-based debiasing is rarely studied in representation learning in knowledge graphs. In this paper, we propose a framework to learn unbiased representations for nodes and edges in knowledge graph mining. Specifically, we integrate a simple-but-effective normalization technique with Graph Neural Networks (GNNs) to constrain the weights updating process. Moreover, as a work-in-progress paper, we also find that the introduced weights normalization technique can mitigate the pitfalls of instability in adversarial debasing towards fair-and-stable machine learning. We evaluate the proposed framework on a benchmarking graph with multiple edge types and node types. The experimental results show that our model achieves comparable or better gender fairness over three competitive baselines on Equality of Odds. Importantly, our superiority in the fair model does not scarify the performance in the knowledge graph task (i.e., multi-class edge classification).
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