Abstract:In this work, we propose a simple yet effective meta-learning algorithm in thesemi-supervised settings. We notice that existing consistency-based approachesmostly do not consider the essential role of the label information for consistencyregularization. To alleviate this issue, we bridge the relationship between theconsistency loss and label information by unfolding and differentiating throughone optimization step. Specifically, we exploit the pseudo labels of the unlabeledexamples which are guided by the meta-gradients of the labeled data loss so thatthe model can generalize well on the labeled examples. In addition, we introduce asimple first-order approximation to avoid computing higher-order derivatives andguarantee scalability. Extensive evaluations on the SVHN, CIFAR, and ImageNetdatasets demonstrate that the proposed algorithm performs favorably against thestate-of-the-art methods.