School of Physical Education, Inner Mongolia Minzu University, Tongliao, Inner Mongolia 028000, China.
Comput Intell Neurosci. 2022 Mar 29;2022:7500525. doi: 10.1155/2022/7500525. eCollection 2022.
The rapid development of the Internet has changed our lives. Many people gradually like online video yoga teaching. However, yoga beginners cannot master the standard yoga poses just by learning through videos, and high yoga poses can bring great damage or even disability to the body if they are not standard. To address this problem, we propose a yoga action recognition and grading system based on spatial-temporal graph convolutional neural network. Firstly, we capture yoga movement data using a depth camera. Then we label the yoga exercise videos frame by frame using long short-term memory network; then we extract the skeletal joint point features sequentially using graph convolution; then we arrange each video frame from spatial-temporal dimension and correlate the joint points in each frame and neighboring frames with spatial-temporal information to obtain the connection between joints. Finally, the identified yoga movements are predicted and graded. Experiment proves that our method can accurately identify and classify yoga poses; it also can identify whether yoga poses are standard or not and give feedback to yogis in time to prevent body damage caused by nonstandard poses.
互联网的飞速发展改变了我们的生活。许多人逐渐喜欢上在线视频瑜伽教学。然而,瑜伽初学者仅通过视频学习无法掌握标准的瑜伽姿势,如果姿势不标准,高难度瑜伽姿势可能会给身体带来巨大的伤害甚至残疾。针对这个问题,我们提出了一种基于时空图卷积神经网络的瑜伽动作识别和分级系统。首先,我们使用深度摄像机捕捉瑜伽运动数据。然后,我们使用长短时记忆网络对瑜伽练习视频逐帧进行标记;然后,我们使用图卷积依次提取骨骼关节点特征;然后,我们从时空维度排列每个视频帧,并将每个帧和相邻帧中的关节点与时空信息相关联,以获得关节之间的连接。最后,识别瑜伽动作并进行预测和分级。实验证明,我们的方法可以准确识别和分类瑜伽姿势;它还可以识别瑜伽姿势是否标准,并及时向瑜伽练习者反馈,以防止因姿势不标准而造成身体损伤。