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Low-Shot Validation: Active Importance Sampling for Estimating Classifier Performance on Rare Categories

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arxiv 2109.05720 v1 pith:V2NJGG2D submitted 2021-09-13 cs.CV cs.LG

Low-Shot Validation: Active Importance Sampling for Estimating Classifier Performance on Rare Categories

classification cs.CV cs.LG
keywords accurateestimatesvalidationcategoriesestimateestimatorimportancelabels
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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For machine learning models trained with limited labeled training data, validation stands to become the main bottleneck to reducing overall annotation costs. We propose a statistical validation algorithm that accurately estimates the F-score of binary classifiers for rare categories, where finding relevant examples to evaluate on is particularly challenging. Our key insight is that simultaneous calibration and importance sampling enables accurate estimates even in the low-sample regime (< 300 samples). Critically, we also derive an accurate single-trial estimator of the variance of our method and demonstrate that this estimator is empirically accurate at low sample counts, enabling a practitioner to know how well they can trust a given low-sample estimate. When validating state-of-the-art semi-supervised models on ImageNet and iNaturalist2017, our method achieves the same estimates of model performance with up to 10x fewer labels than competing approaches. In particular, we can estimate model F1 scores with a variance of 0.005 using as few as 100 labels.

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