Robust Metric Learning
Robust Metric Learning learns a Mahalanobis distance function from labeled or pairwise-constrained data while actively resisting the distortion caused by noisy labels, corrupted examples, or outliers. By replacing standard hinge or squared losses with robust alternatives and adding regularization, it produces a distance metric that generalises well even when the training set is imperfect — a common situation in real-world scientific and applied tasks.
Source record
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- Shen, C., Kim, J., Wang, L., & van den Hengel, A. (2012). Positive Semidefinite Metric Learning Using Boosting-like Algorithms. Journal of Machine Learning Research, 13, 1007–1036. · URL
- Cao, Q., Guo, Z.-C., & Ying, Y. (2012). Generalization Bounds for Metric and Similarity Learning. Machine Learning, 102(1), 115–132. · URL
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