Active Learning for Graph Neural Networks via Node Feature Propagation - Robotics Institute Carnegie Mellon University

Active Learning for Graph Neural Networks via Node Feature Propagation

Yuexin Wu, Yichong Xu, Aarti Singh, Yiming Yang, and Artur Dubrawski
Workshop Paper, NeurIPS '19 Graph Representation Learning Workshop (GRL '19), December, 2019

Abstract

Graph Neural Networks (GNNs) for prediction tasks like node classification or edge prediction have received increasing attention in recent machine learning from graphically structured data. However, a large quantity of labeled graphs is difficult to obtain, which significantly limits the true success of GNNs. Although active learning has been widely studied for addressing label-sparse issues with other data types like text, images, etc., how to make it effective over graphs is an open question for research. In this paper, we present an investigation on active learning with GNNs for node classification tasks. Specifically, we propose a new method, which uses node feature propagation followed by K-Medoids clustering of the nodes for instance selection in active learning. With a theoretical bound analysis we justify the design choice of our approach. In our experiments on four benchmark datasets, the proposed method outperforms other representative baseline methods consistently and significantly.

BibTeX

@workshop{Wu-2019-121779,
author = {Yuexin Wu and Yichong Xu and Aarti Singh and Yiming Yang and Artur Dubrawski},
title = {Active Learning for Graph Neural Networks via Node Feature Propagation},
booktitle = {Proceedings of NeurIPS '19 Graph Representation Learning Workshop (GRL '19)},
year = {2019},
month = {December},
}