This work is licensed under the Creative Commons Attribution 4.0 International License.
Chieh, C. (2016). Exploring the design and development of Taiji (fixed-step) hand-pushing perception interactive system [Doctoral dissertation, Shanghai Institute of Physical Education].ChiehC. (2016). Exploring the design and development of Taiji (fixed-step) hand-pushing perception interactive system [Doctoral dissertation, Shanghai Institute of Physical Education].Search in Google Scholar
Han, Z. Y. (2018). The martial arts action design based on computer three-dimensional auxiliary system. Journal of Discrete Mathematical Sciences and Cryptography, 21(2), 601-605.HanZ. Y. (2018). The martial arts action design based on computer three-dimensional auxiliary system. Journal of Discrete Mathematical Sciences and Cryptography, 21(2), 601–605.Search in Google Scholar
Jiang, H., Ma, M., & Cao, C. (2024). Research on the application of three-dimensional motion capture technology and modeling analysis in martial arts. Arts and Sporting Goods and Technology, (10), 107-110.JiangH.MaM.CaoC. (2024). Research on the application of three-dimensional motion capture technology and modeling analysis in martial arts. Arts and Sporting Goods and Technology, (10), 107–110.Search in Google Scholar
Xu, Y. (2023). AI intelligent evaluation system for assessing the kinematic accuracy of martial arts routine movements in the middle school examination [Doctoral dissertation, Shanghai Institute of Physical Education].XuY. (2023). AI intelligent evaluation system for assessing the kinematic accuracy of martial arts routine movements in the middle school examination [Doctoral dissertation, Shanghai Institute of Physical Education].Search in Google Scholar
Liu, Y., Xu, S., Song, S., & Zhang, D. (2021). Recognition and comparison of traditional martial arts movements based on OpenPose. Electronic Components and Information Technology, 5(3), 126-128.LiuY.XuS.SongS.ZhangD. (2021). Recognition and comparison of traditional martial arts movements based on OpenPose. Electronic Components and Information Technology, 5(3), 126–128.Search in Google Scholar
Jiang, K. (2022). Research on martial arts action recognition based on deep learning [Doctoral dissertation, Shanghai Normal University].JiangK. (2022). Research on martial arts action recognition based on deep learning [Doctoral dissertation, Shanghai Normal University].Search in Google Scholar
Zhou, S., Zhang, F., & Zheng, Y. (2020). Research on the matching of martial arts movement recognition based on Kinect acquisition. Automation Technology and Application, 39(3), 94-97.ZhouS.ZhangF.ZhengY. (2020). Research on the matching of martial arts movement recognition based on Kinect acquisition. Automation Technology and Application, 39(3), 94–97.Search in Google Scholar
Zhao, C., & Li, B. (2021). Artificial intelligence auxiliary algorithm for martial arts routine competition decision based on feature fusion. Engineering.ZhaoC.LiB. (2021). Artificial intelligence auxiliary algorithm for martial arts routine competition decision based on feature fusion. Engineering.Search in Google Scholar
Cheng, H. (2017). Research on human movement behavior pattern recognition based on time series analysis [Doctoral dissertation, Zhejiang Gongshang University].ChengH. (2017). Research on human movement behavior pattern recognition based on time series analysis [Doctoral dissertation, Zhejiang Gongshang University].Search in Google Scholar
Qu, W. (2010). Research and implementation of human action recognition technology based on time series analysis in video [Doctoral dissertation, Northeastern University].QuW. (2010). Research and implementation of human action recognition technology based on time series analysis in video [Doctoral dissertation, Northeastern University].Search in Google Scholar
Chang, W. (2017). Research on behavior recognition technology based on time series analysis [Doctoral dissertation, Qingdao University of Science and Technology].ChangW. (2017). Research on behavior recognition technology based on time series analysis [Doctoral dissertation, Qingdao University of Science and Technology].Search in Google Scholar
Shen, F., Liu, J., & Wu, K. (2020). Multivariate time series forecasting based on elastic net and high-order fuzzy cognitive maps: A case study on human action prediction through EEG signals. IEEE Transactions on Fuzzy Systems, PP(99), 1-1.ShenF.LiuJ.WuK. (2020). Multivariate time series forecasting based on elastic net and high-order fuzzy cognitive maps: A case study on human action prediction through EEG signals. IEEE Transactions on Fuzzy Systems, PP(99), 1–1.Search in Google Scholar
Lei, M. (2020). Machine learning based human movement accuracy judging system [Doctoral dissertation, Hangzhou University of Electronic Science and Technology].LeiM. (2020). Machine learning based human movement accuracy judging system [Doctoral dissertation, Hangzhou University of Electronic Science and Technology].Search in Google Scholar
