基于图像纹理特征的人工智能数据与高校健美操教学模式研究

Xiaoling Song
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引用次数: 0

摘要

摘要本文首先研究了基于图像纹理特征的动作识别方法,建立了人体模型,实现了骨骼数据的提取和关节标定。基于骨架信息,识别健美操动作,计算健美操动作序列与标准动作序列的差值,并对动作进行评分。然后,建立健美操动作数据库,开发人工智能辅助健美操教学模式。最后,通过认知效应、技能影响、学生学习兴趣等指标对教学方法的效果进行分析。结果表明,该系统的动作识别准确率达到95%,整体响应时间在5.2 ~ 6.4s之间,实时性较高。对学生的运动参与、积极兴趣、自主学习行为均有显著影响,p值分别为0.013、0.041、0.036,p<0.05。本研究促进了健美操的发展和创新,可以科学地调整训练对策,提高健美操运动员的技术水平。
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Research on Artificial Intelligence Data Based on Image Texture Characterization and Aerobics Teaching Mode in Colleges and Universities
Abstract In this paper, we first studied the action recognition method based on image texture features, established a human body model, and realized the extraction of skeletal data and joint calibration. Based on the skeleton information, the aerobic movements are recognized, the difference between the aerobics movement sequence and the standard movement sequence is calculated, and the movements are scored. Then, the database for aerobic movements was established, and an AI-assistant aerobics teaching model was developed. Finally, the effect of the teaching method was analyzed through indicators of recognition effect, skill impact, and students’ learning interests. The results show that the accuracy of the system’s action recognition reaches 95%, and the overall response time is between 5.2-6.4s, with high real-time performance. And it has a significant effect on students’ movement participation, active interest, and independent learning behavior, with p-values of 0.013, 0.041, and 0.036, respectively, p<0.05. This study promotes the development and innovation of aerobics, which can scientifically adjust training countermeasures and enhance the skill level of aerobics athletes.
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来源期刊
Applied Mathematics and Nonlinear Sciences
Applied Mathematics and Nonlinear Sciences Engineering-Engineering (miscellaneous)
CiteScore
2.90
自引率
25.80%
发文量
203
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