Graph Policy Network for Transferable Active Learning on Graphs
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Graph neural networks (GNNs) have been attracting increasing popularity due to their simplicity and effectiveness in a variety of fields. However, a large number of labeled data is generally required to train these networks, which could be very expensive to obtain in some domains. In this paper, we study active learning for GNNs, i.e., how to efficiently label the nodes on a graph to reduce the annotation cost of training GNNs. We formulate the problem as a sequential decision process on graphs and train a GNN-based policy network with reinforcement learning to learn the optimal query strategy. By jointly optimizing over several source graphs with full labels, we learn a transferable active learning policy which can directly generalize to unlabeled target graphs under a zero-shot transfer setting. Experimental results on multiple graphs from different domains prove the effectiveness of our proposed approach in both settings of transferring between graphs in the same domain and across different domains.
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