深度图动作识别的组稀疏性和几何约束字典学习

Jiajia Luo, Wei Wang, H. Qi
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引用次数: 215

摘要

基于商品深度传感器提供的深度信息进行人体动作识别是一项重要而又具有挑战性的任务。嘈杂的深度图、动作序列的不同长度以及执行动作的自由风格,可能会导致很大的类内变化。提出了一种基于稀疏编码和时间金字塔匹配(TPM)的基于深度的人体动作识别框架。特别提出了一种针对稀疏编码的判别分类字典学习算法。通过加入群稀疏性和几何约束,可以很好地利用属于同一类的子字典重构特征,并在计算系数中保持特征之间的几何关系。在深度相机捕获的两个基准数据集上对该方法进行了评估。实验结果表明,该算法多次取得了优于现有算法的性能。此外,所提出的字典学习方法也优于经典的字典学习方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Group Sparsity and Geometry Constrained Dictionary Learning for Action Recognition from Depth Maps
Human action recognition based on the depth information provided by commodity depth sensors is an important yet challenging task. The noisy depth maps, different lengths of action sequences, and free styles in performing actions, may cause large intra-class variations. In this paper, a new framework based on sparse coding and temporal pyramid matching (TPM) is proposed for depth-based human action recognition. Especially, a discriminative class-specific dictionary learning algorithm is proposed for sparse coding. By adding the group sparsity and geometry constraints, features can be well reconstructed by the sub-dictionary belonging to the same class, and the geometry relationships among features are also kept in the calculated coefficients. The proposed approach is evaluated on two benchmark datasets captured by depth cameras. Experimental results show that the proposed algorithm repeatedly achieves superior performance to the state of the art algorithms. Moreover, the proposed dictionary learning method also outperforms classic dictionary learning approaches.
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