基于人工智能技术和传感设备数据融合的乒乓球运动员体能系统化训练

IF 2.5 4区 医学 Q3 BIOCHEMICAL RESEARCH METHODS
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引用次数: 0

摘要

这项研究强调了体能训练对乒乓球运动员的价值,尤其是在球速和旋转率下降的情况下,并强调了强度质量对比赛的重要性。中国乒乓球运动员的双重身份对其学习和训练的总体成长提出了更高的要求,这是人才培养准备工作的重要组成部分。运动员的综合素质、竞技水平、避免运动损伤的能力都是通过科学的、有针对性的体能训练来提高的。为了实现智能摄像、多角度转播、三维场景再现等功能,本研究结合了人工智能的体能训练模式。这给观众带来了更具吸引力和深度的观看体验。通过深度学习和卷积神经网络,结合大规模视频数据,可以对比赛画面进行更多的特征提取,大大增强了观众的比赛信息。实验结果表明,基于增强型 AM-Softmax 分类算法的乒乓球人体技术动作识别准确率达到 98.88%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Systematic training of table tennis players' physical performance based on artificial intelligence technology and data fusion of sensing devices

This research emphasises the value of physical training for table tennis players, particularly as ball speed and spin rate decline and emphasises how important intensity quality is to the game. Chinese table tennis players' dual identities place greater demands on the general growth of their learning and training as a crucial component of talent development preparation. Athletes' general quality, competitive level, and ability to avoid sports injuries are all improved by scientific and focused physical training. In order to achieve the functions of intelligent camera, multi-angle broadcasting, and 3D scene reproduction, this study combines the physical training model of artificial intelligence. This gives the audience a more engaging and in-depth viewing experience. More feature extraction of the match footage is made possible by deep learning and convolutional neural networks when combined with large-scale video data, greatly enhancing the match information for viewers. The experimental findings demonstrate that the accuracy of table tennis human technical movement recognition reaches 98.88 % based on the enhanced AM-Softmax classification algorithm.

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来源期刊
SLAS Technology
SLAS Technology Computer Science-Computer Science Applications
CiteScore
6.30
自引率
7.40%
发文量
47
审稿时长
106 days
期刊介绍: SLAS Technology emphasizes scientific and technical advances that enable and improve life sciences research and development; drug-delivery; diagnostics; biomedical and molecular imaging; and personalized and precision medicine. This includes high-throughput and other laboratory automation technologies; micro/nanotechnologies; analytical, separation and quantitative techniques; synthetic chemistry and biology; informatics (data analysis, statistics, bio, genomic and chemoinformatics); and more.
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