Masking: A New Perspective of Noisy Supervision
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It is important to learn classifiers under noisy labels due to their ubiquities. As noisy labels are corrupted from ground-truth labels by an unknown noise transition matrix, the accuracy of classifiers can be improved by estimating this matrix, without introducing either sample-selection or regularization biases. However, such estimation is often inexact, which inevitably degenerates the accuracy of classifiers. The inexact estimation is due to either a heuristic trick, or the brutal-force learning by deep networks under a finite dataset. In this paper, we present a human-assisted approach called "masking". The masking conveys human cognition of invalid class transitions, and naturally speculates the structure of the noise transition matrix. Given the structure information, we only learn the noise transition probability to reduce the estimation burden. To instantiate this approach, we derive a structure-aware probabilistic model, which incorporates a structure prior. During the model realization, we solve the challenges from structure extraction and alignment in principle. Empirical results on benchmark datasets with three noise structures show that, our approach can improve the robustness of classifiers significantly.
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