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Nguyen, X. T., Ngo, T. D., & Le, T. H. (2019). A spatial-temporal 3d human pose reconstruction framework. Journal of Information Processing Systems, 15(2), 399-409.Search in Google Scholar
Kim, Y., Baek, S., & Bae, B. C. (2017). Motion capture of the human body using multiple depth sensors. Etri Journal, 39(2), 181-190.Search in Google Scholar
Nakaoka, S., Nakazawa, A., Kanehiro, F., Kaneko, K., Morisawa, M., & Hirukawa, H., et al. (2016). Learning from observation paradigm: leg task models for enabling a biped humanoid robot to imitate human dances. The International Journal of Robotics Research.Search in Google Scholar
Sun, K. (2022). Research on dance motion capture technology for visualization requirements. Scientific programming(Pt.19), 2022.Search in Google Scholar
Muneesawang, P., Khan, N. M., Kyan, M., Elder, B., & Guan, L. (2015). A machine intelligence approach to the design and implementation of ballet training in the cave. IEEE Multimedia, 22(4), 1-1.Search in Google Scholar
Meng, Y. (2022). Design of automatic motion capture algorithm for yao’s long drum dance based on multieye machine vision. Scientific Programming.Search in Google Scholar
Ramos, O. E., Mansard, N., Stasse, O., Benazeth, C., Hak, S., & Saab, L. (2015). Dancing humanoid robots: systematic use of osid to compute dynamically consistent movements following a motion capture pattern. IEEE Robotics & Automation Magazine, 22(4), 16-26.Search in Google Scholar
Aristidou, A., Charalambous, P., & Chrysanthou, Y. L. (2015). Emotion analysis and classification: understanding the performers’ emotions using the lma entities. Computer Graphics Forum.Search in Google Scholar
Shi, Y. (2022). Stage performance characteristics of minority dance based on human motion recognition. Mobile information systems(Pt.13), 2022.Search in Google Scholar
Lee, M., Lee, K., Lee, M., & Park, J. (2017). Dance motion generation by recombination of body parts from motion source. Intelligent Service Robotics.Search in Google Scholar
Tagging, A. N. I. M. (2022). Soft x-ray images capture dance of the organelles. Nature(Feb.24 TN.7898), 602.Search in Google Scholar
Gao, Y., & Xu, D. (2021). Application of posture recognition service system based on information fusion smart sensor in dance training. Journal of Sensors.Search in Google Scholar
Ma, M., Sun, S. B., & Gao, Y. (2022). Data-driven computer choreography based on kinect and 3d technology. Scientific Programming.Search in Google Scholar
Cui, C., Li, J., Du, D., Wang, H., & Cao, T. (2021). The method of dance movement segmentation and labanotation generation based on rhythm. IEEE Access, PP(99), 1-1.Search in Google Scholar
Liu, H. (2017). Research on real-time pose analysis method of dance based on feature vector matching. Boletin Tecnico/Technical Bulletin, 55(15), 321-326.Search in Google Scholar
Kim, & Yejin. (2017). Dance motion capture and composition using multiple rgb and depth sensors. International Journal of Distributed Sensor Networks, 13(2), 155014771769608.Search in Google Scholar
Wang, J., Miao, Z., Xie, N., Xu, W., & Li, A. (2020). Labanotation generation from motion capture data for protection of folk dance. IEEE Access, PP(99), 1-1.Search in Google Scholar
Raheb, K. E., Stergiou, M., Katifori, A., & Ioannidis, Y. (2019). Dance interactive learning systems: a study on interaction workflow and teaching approaches. ACM Computing Surveys, 52(3), 1-37.Search in Google Scholar
Nam, S. H., & Kim, J. Y. (2018). Dance exergame system for health using wearable devices. IEEE Access, PP(99), 1-1.Search in Google Scholar
Li, M., Miao, Z., Zhang, X. P., Xu, W., & Xie, N. (2021). Rhythm-aware sequence-to-sequence learning for labanotation generation with gesture-sensitive graph convolutional encoding. IEEE Transactions on Multimedia, PP(99), 1-1.Search in Google Scholar
Aristidou, A., Stavrakis, E., Papaefthimiou, M., Papagiannakis, G., & Chrysanthou, Y. (2018). Style-based motion analysis for dance composition. The visual computer(12).Search in Google Scholar
Scholz, R. E. P., & Ramalho, G. L. (2019). Lowering the usability entry barrier to interactive poetics experimentation in dance. Interacting with Computers, 31(1), 59-82.Search in Google Scholar
Li, M., Miao, Z., & Lu, Y. (2023). Labanformer: multi-scale graph attention network and transformer with gated recurrent positional encoding for labanotation generation. Neurocomputing, 539, 126203.Search in Google Scholar
Bernardi, N. F., Bellemare-Pepin, A., & Peretz, I. (2018). Dancing to ‘groovy’ music enhances the experience of flow. Annals of the New York Academy of Sciences, 1423, 415-426.Search in Google Scholar
Luo, W., & Ning, B. (2022). High-dynamic dance motion recognition method based on video visual analysis. Scientific Programming, 2022, 1-9.Search in Google Scholar
(2019).Engineering - Aerospace Engineering; Reports Outline Aerospace Engineering Study Findings from Xidian University (Accurate Direct Strapdown Direction Cosine Algorithm).Defense Aerospace WeekSearch in Google Scholar
Massimo Cavacece.(2024).Error analysis of inertial navigation based on quaternion approach.Journal of Machine Design and Automation Intelligence(1),Search in Google Scholar
Chenyu Zhu,Shunli Wang,Chunmei Yu,Heng Zhou,Carlos Fernandez & Josep M. Guerrero.(2024).An improved Cauchy robust correction-sage Husa extended Kalman filtering algorithm for high-precision SOC estimation of Lithium-ion batteries in new energy vehicles.Journal of Energy Storage111552-.Search in Google Scholar
Xiaojuan Zuo & Zeyu Chen.(2024).An Intelligent Model of Mixed Teaching of Business English in Colleges and Universities in the Information Age.Applied Mathematics and Nonlinear Sciences(1),Search in Google Scholar
Monteiro Rafael Luiz Martins,dos Santos Carlos Cesar Arruda,Blauberger Patrick,Link Daniel, Russomanno Tiago Guedes,Tahara Ariany Klein.. & Santiago Paulo Roberto Pereira.(2024).Enhancing soccer goalkeepers penalty dive kinematics with instructional video and laterality insights in field conditions.Scientific Reports(1),10225-10225.Search in Google Scholar
