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Continual Action Quality Assessment via Adaptive Manifold-Aligned Graph Regularization

Kanglei Zhou, Qingyi Pan, Xingxing Zhang, Hubert P. H. Shum, Frederick W. B. Li, Xiaohui Liang and Liyuan Wang
arXiv Preprint, 2025

Continual Action Quality Assessment via Adaptive Manifold-Aligned Graph Regularization

Abstract

Action Quality Assessment (AQA) quantifies human actions in videos, supporting applications in sports scoring, rehabilitation, and skill evaluation. A major challenge lies in the non-stationary nature of quality distributions in real-world scenarios, which limits the generalization ability of conventional methods. We introduce Continual AQA (CAQA), which equips AQA with Continual Learning (CL) capabilities to handle evolving distributions while mitigating catastrophic forgetting. Although parameter-efficient fine-tuning of pretrained models has shown promise in CL for image classification, we find it insufficient for CAQA. Our empirical and theoretical analyses reveal two insights: (i) Full-Parameter Fine-Tuning (FPFT) is necessary for effective representation learning; yet (ii) uncontrolled FPFT induces overfitting and feature manifold shift, thereby aggravating forgetting. To address this, we propose Adaptive Manifold-Aligned Graph Regularization (MAGR++), which couples backbone fine-tuning that stabilizes shallow layers while adapting deeper ones with a two-step feature rectification pipeline: a manifold projector to translate deviated historical features into the current representation space, and a graph regularizer to align local and global distributions. We construct four CAQA benchmarks from three datasets with tailored evaluation protocols and strong baselines, enabling systematic cross-dataset comparison. Extensive experiments show that MAGR++ achieves state-of-the-art performance, with average correlation gains of 3.6% offline and 12.2% online over the strongest baseline, confirming its robustness and effectiveness. Our code is available at https://github.com/ZhouKanglei/MAGRPP

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Plain Text

Kanglei Zhou, Qingyi Pan, Xingxing Zhang, Hubert P. H. Shum, Frederick W. B. Li, Xiaohui Liang and Liyuan Wang, "Continual Action Quality Assessment via Adaptive Manifold-Aligned Graph Regularization," arXiv preprint arXiv:2510.06842, 2025.

BibTeX

@article{zhou25continual,
 author={Zhou, Kanglei and Pan, Qingyi and Zhang, Xingxing and Shum, Hubert P. H. and Li, Frederick W. B. and Liang, Xiaohui and Wang, Liyuan},
 journal={arXiv},
 title={Continual Action Quality Assessment via Adaptive Manifold-Aligned Graph Regularization},
 year={2025},
 numpages={19},
 eprint={arXiv:2510.06842},
 archivePrefix={arXiv},
 primaryClass={cs.CV},
 doi={10.48550/arXiv.2510.06842},
 url={https://arxiv.org/abs/2510.06842},
}

RIS

TY  - Preprint
AU  - Zhou, Kanglei
AU  - Pan, Qingyi
AU  - Zhang, Xingxing
AU  - Shum, Hubert P. H.
AU  - Li, Frederick W. B.
AU  - Liang, Xiaohui
AU  - Wang, Liyuan
JO  - arXiv preprints
SP  - arXiv:2510.06842
KW  - cs.CV
TI  - Continual Action Quality Assessment via Adaptive Manifold-Aligned Graph Regularization
PY  - 2025
DO  - 10.48550/arXiv.2510.06842
ER  - 

Supporting Grants

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