Variational Contrastive Learning for Skeleton-based Action Recognition
- URL: http://arxiv.org/abs/2601.07666v1
- Date: Mon, 12 Jan 2026 15:45:40 GMT
- Title: Variational Contrastive Learning for Skeleton-based Action Recognition
- Authors: Dang Dinh Nguyen, Decky Aspandi Latif, Titus Zaharia,
- Abstract summary: We propose a variational contrastive learning framework that integrates latent probabilistic modeling with contrastive self-supervised learning.<n>This formulation enables the learning of structured and semantically meaningful representations that generalize across different datasets and supervision levels.
- Score: 1.5819414178363573
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: In recent years, self-supervised representation learning for skeleton-based action recognition has advanced with the development of contrastive learning methods. However, most of contrastive paradigms are inherently discriminative and often struggle to capture the variability and uncertainty intrinsic to human motion. To address this issue, we propose a variational contrastive learning framework that integrates probabilistic latent modeling with contrastive self-supervised learning. This formulation enables the learning of structured and semantically meaningful representations that generalize across different datasets and supervision levels. Extensive experiments on three widely used skeleton-based action recognition benchmarks show that our proposed method consistently outperforms existing approaches, particularly in low-label regimes. Moreover, qualitative analyses show that the features provided by our method are more relevant given the motion and sample characteristics, with more focus on important skeleton joints, when compared to the other methods.
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