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Most Influential ACM MULTIMEDIA 2020 Paper · 2026-03 edition

MS2L: Multi-Task Self-Supervised Learning For Skeleton Based Action Recognition

Lilang Lin; Sijie Song; Wenhan Yang; Jiaying Liu

Venue
ACM International Conference on Multimedia (ACM MULTIMEDIA) 2020
Recognition
Most Influential ACM MULTIMEDIA 2020 Paper (Rank No. 12)
Edition
2026-03
Impact factor
5
Certificate ID
dd674bf6f525554e

Abstract

In this paper, we address self-supervised representation learning from human skeletons for action recognition. Previous methods, which usually learn feature presentations from a single reconstruction task, may come across the overfitting problem, and the features are not generalizable for action recognition. Instead, we propose to integrate multiple tasks to learn more general representations in a self-supervised manner. To realize this goal, we integrate motion prediction, jigsaw puzzle recognition, and contrastive learning to learn skeleton features from different aspects. Skeleton dynamics can be modeled through motion prediction by predicting the future sequence. And temporal patterns, which are critical for action recognition, are learned through solving jigsaw puzzles. We further regularize the feature space by contrastive learning. Besides, we explore different training strategies to utilize the knowledge from self-supervised tasks for action recognition. We evaluate our multi-task self-supervised learning approach with action classifiers trained under different configurations, including unsupervised, semi-supervised and fully-supervised settings. Our experiments on the NW-UCLA, NTU RGB+D, and PKUMMD datasets show remarkable performance for action recognition, demonstrating the superiority of our method in learning more discriminative and general features. Our project website is available at https://langlandslin.github.io/projects/MSL/.

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