Learning with Multiple Complementary Labels
This work addresses a practical constraint in multi-class classification for scenarios where labelers can easily provide multiple incorrect labels, offering incremental improvements over existing single-label approaches.
The paper tackles the limitation of learning with only a single complementary label per example by proposing a new problem setting that allows multiple complementary labels (MCLs) and introduces two learning methods, with experiments showing the latter method performs better.
A complementary label (CL) simply indicates an incorrect class of an example, but learning with CLs results in multi-class classifiers that can predict the correct class. Unfortunately, the problem setting only allows a single CL for each example, which notably limits its potential since our labelers may easily identify multiple CLs (MCLs) to one example. In this paper, we propose a novel problem setting to allow MCLs for each example and two ways for learning with MCLs. In the first way, we design two wrappers that decompose MCLs into many single CLs, so that we could use any method for learning with CLs. However, the supervision information that MCLs hold is conceptually diluted after decomposition. Thus, in the second way, we derive an unbiased risk estimator; minimizing it processes each set of MCLs as a whole and possesses an estimation error bound. We further improve the second way into minimizing properly chosen upper bounds. Experiments show that the former way works well for learning with MCLs but the latter is even better.