Multi-label Learning from Privacy-Label
This addresses privacy protection in multi-label learning for applications involving sensitive data, but it appears incremental as it builds on existing multi-label learning frameworks.
The paper tackles the problem of sensitive information leakage in multi-label learning by introducing a novel setting called Multi-Label Learning from Privacy-Label (MLLPL), which conceals privacy labels through Privacy-Label Units, and experimental results show its effectiveness on benchmark datasets.
Multi-abel Learning (MLL) often involves the assignment of multiple relevant labels to each instance, which can lead to the leakage of sensitive information (such as smoking, diseases, etc.) about the instances. However, existing MLL suffer from failures in protection for sensitive information. In this paper, we propose a novel setting named Multi-Label Learning from Privacy-Label (MLLPL), which Concealing Labels via Privacy-Label Unit (CLPLU). Specifically, during the labeling phase, each privacy-label is randomly combined with a non-privacy label to form a Privacy-Label Unit (PLU). If any label within a PLU is positive, the unit is labeled as positive; otherwise, it is labeled negative, as shown in Figure 1. PLU ensures that only non-privacy labels are appear in the label set, while the privacy-labels remain concealed. Moreover, we further propose a Privacy-Label Unit Loss (PLUL) to learn the optimal classifier by minimizing the empirical risk of PLU. Experimental results on multiple benchmark datasets demonstrate the effectiveness and superiority of the proposed method.