Optimizing young tennis players' development: Exploring the impact of emerging technologies on training effectiveness and technical skills acquisition

The research analyzed the effect of weekly training plans, physical training frequency, AI-powered coaching systems, virtual reality (VR) training environments, wearable sensors on developing technical tennis skills, with and personalized learning as a mediator. It adopted a quantitative survey meth...

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Bibliographic Details
Published in:PloS one 2024-08, Vol.19 (8), p.e0307882
Main Authors: Liu, Sheng, Wu, Chenxi, Xiao, Shurong, Liu, Yaxi, Song, Yingdong
Format: Article
Language:English
Subjects:
Adolescent
Artificial intelligence
Athletic Performance - physiology
Biology and Life Sciences
Child
Computer and Information Sciences
Computer applications
Customization
Effectiveness
Endurance
Engineering and Technology
Exercise
Factor analysis
Female
Flexibility
Frequency analysis
Games
Humans
Hypotheses
Impact analysis
Injuries
Learning
Male
Mechanics
Medicine and Health Sciences
Motor ability
New technology
Physical fitness
Physical training
Physiology
Players
Power
Sensors
Skills
Social Sciences
Sports training
Strength training
Tennis
Tennis - education
Virtual environments
Virtual Reality
Wearable Electronic Devices
Wearable technology
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Summary:The research analyzed the effect of weekly training plans, physical training frequency, AI-powered coaching systems, virtual reality (VR) training environments, wearable sensors on developing technical tennis skills, with and personalized learning as a mediator. It adopted a quantitative survey method, using primary data from 374 young tennis players. The model fitness was evaluated using confirmatory factor analysis (CFA), while the hypotheses were evaluated using structural equation modeling (SEM). The model fitness was confirmed through CFA, demonstrating high fit indices: CFI = 0.924, TLI = 0.913, IFI = 0.924, RMSEA = 0.057, and SRMR = 0.041, indicating a robust model fit. Hypotheses testing revealed that physical training frequency (β = 0.198, p = 0.000), AI-powered coaching systems (β = 0.349, p = 0.000), virtual reality training environments (β = 0.476, p = 0.000), and wearable sensors (β = 0.171, p = 0.000) significantly influenced technical skills acquisition. In contrast, the weekly training plan (β = 0.024, p = 0.834) and personalized learning (β = -0.045, p = 0.81) did not have a significant effect. Mediation analysis revealed that personalized learning was not a significant mediator between training methods/technologies and acquiring technical abilities. The results revealed that physical training frequency, AI-powered coaching systems, virtual reality training environments, and wearable sensors significantly influenced technical skills acquisition. However, personalized learning did not have a significant mediation effect. The study recommended that young tennis players' organizations and stakeholders consider investing in emerging technologies and training methods. Effective training should be given to coaches on effectively integrating emerging technologies into coaching regimens and practices.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0307882