CoKe: Localized Contrastive Learning for Robust Keypoint Detection
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Today's most popular approaches to keypoint detection learn a holistic representation of all keypoints. This enables them to implicitly leverage the relative spatial geometry between keypoints and thus to prevent false-positive detections due to local ambiguities. However, our experiments show that such holistic representations do not generalize well when the 3D pose of objects varies strongly, or when objects are partially occluded. In this paper, we propose CoKe, a framework for the supervised contrastive learning of distinct local feature representations for robust keypoint detection. In particular, we introduce a feature bank mechanism and update rules for keypoint and non-keypoint features which make possible to learn local keypoint detectors that are accurate and robust to local ambiguities. Our experiments show that CoKe achieves state-of-the-art results compared to approaches that jointly represent all keypoints holistically (Stacked Hourglass Networks, MSS-Net) as well as to approaches that are supervised with the detailed 3D object geometry (StarMap). Notably, CoKe performs exceptionally well when objects are partially occluded and outperforms related work on a range of diverse datasets (PASCAL3D+, MPII, ObjectNet3D).
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