ASPEST: Bridging the Gap Between Active Learning and Selective Prediction
Selective prediction aims to learn a reliable model that abstains from making predictions when the model uncertainty is high. These predictions can then be deferred to a human expert for further evaluation. In many real-world scenarios, however, the distribution of test data is different from the training data. This results in more inaccurate predictions, necessitating increased human labeling, which is difficult and expensive in many scenarios. Active learning circumvents this difficulty by only querying the most informative examples and, in several cases, has been shown to lower the overall labeling effort. In this work, we bridge the gap between selective prediction and active learning, proposing a new learning paradigm called active selective prediction which learns to query more informative samples from the shifted target domain while increasing accuracy and coverage. For this new problem, we propose a simple but effective solution, ASPEST, that trains ensembles of model snapshots using self-training with their aggregated outputs as pseudo labels. Extensive experiments on several image, text and structured datasets with domain shifts demonstrate that active selective prediction can significantly outperform prior work on selective prediction and active learning (e.g. on the MNIST→SVHN benchmark with the labeling budget of 100, ASPEST improves the AUC metric from 79.36 humans in the loop.
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