Litcius/Paper detail

Graph Alignment with Noisy Supervision

Shichao Pei, Yu Lu, Guoxian Yu, Xiangliang Zhang

2022Proceedings of the ACM Web Conference 202213 citationsDOIOpen Access PDF

Abstract

Recent years have witnessed increasing attention on the application of graph alignment to on-Web tasks, such as knowledge graph integration and social network linking. Despite achieving remarkable performance, prevailing graph alignment models still suffer from noisy supervision, yet how to mitigate the impact of noise in labeled data is still under-explored. The negative sampling based noise discrimination model has been a feasible solution to detect the noisy data and filter them out. However, due to its sensitivity to the sampling distribution, the negative sampling based noise discrimination model would lead to an inaccurate decision boundary. Furthermore, it is difficult to find an abiding threshold to separate the potential positive (benign) and negative (noisy) data in the whole training process. To address these important issues, in this paper, we design a non-sampling discrimination model resorting to the unbiased risk estimation of positive-unlabeled learning to circumvent the harmful impact of negative sampling. We also propose to select the appropriate potential positive data at different training stages by an adaptive filtration threshold enabled by curriculum learning, for maximally improving the performance of alignment model and non-sampling discrimination model. Extensive experiments conducted on several real-world datasets validate the effectiveness of our proposed method.

Topics & Concepts

Computer scienceSampling (signal processing)Noisy dataNoise (video)Machine learningGraphArtificial intelligenceData miningNoise measurementFilter (signal processing)Adaptive samplingData modelingTheoretical computer scienceNoise reductionMonte Carlo methodComputer visionMathematicsStatisticsDatabaseImage (mathematics)Advanced Graph Neural NetworksMachine Learning and Data ClassificationGraph Theory and Algorithms