Can Video Annotation Software With Minimal Standardization Be Used as a Back-Up for a Marker-Free Motion Tracking System when Monitoring Barbell Thruster Velocity During a Repeated Circuit?

IF 2.5 2区医学 Q2 SPORT SCIENCES

Journal of Strength and Conditioning Research Pub Date : 2025-02-01 Epub Date: 2024-10-24 DOI:10.1519/JSC.0000000000004971

Gerald T Mangine, Ashley Hines, Jacob Grazer, Tiffany A Esmat, John McLester

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Abstract

Abstract: Mangine, GT, Hines, A, Grazer, J, Esmat, TA, and McLester, J. Can video annotation software with minimal standardization be used as a back-up for a marker-free motion tracking system when monitoring barbell thruster velocity during a repeated circuit? J Strength Cond Res 39(2): 147-155, 2025-This study examined the agreement between a marker-free motion tracking system (PERCH) and a free video annotation software (KINOVEA) for measuring barbell thruster velocity using minimal standardization. For a larger placebo-controlled supplement intervention, 10 men (28.7 ± 8.0 years, 175 ± 8 cm, 91.0 ± 12.0 kg) and 10 women (31.3 ± 5.2 years, 167 ± 4 cm, 70 ± 13 kg) completed a circuit of rowing, 6 barbell thrusters (men: 43.1 kg, women: 29.5 kg), and 3 box jumps for "as many repetitions as possible" (AMRAP) in either 5 or 15 minutes. Barbell velocity (m × second -1 ) was monitored by PERCH from the frontal plane, whereas all sessions were video recorded from the same view and subsequently analyzed by KINOVEA using natural barbell landmarks. Fifty repetitions were randomly and equally drawn from each participant ( n = 1,000 repetitions) across all workout and supplement conditions. Although Wilcoxon signed-rank test revealed no differences (mean difference = 0.03 m × second -1 , p = 0.332), KINOVEA only explained 2.6% of PERCH variance, and Spearman's correlation analysis of Bland-Altman plots suggested that differences between technologies were exacerbated by the magnitude of velocity ( ρ = -0.62, p < 0.001). Cross-validated, regression analysis using KINOVEA and readily available participant demographics (arm reach and biological sex) improved prediction by 13.4% but agreement remained inconsistent ( ρ = 0.73, p < 0.001). Neither KINOVEA nor KINOVEA combined with participant demographics are interchangeable with PERCH for monitoring barbell velocity during an AMRAP. Still, researchers and athletes might use this free and accessible software as back-up for whenever PERCH fails to detect repetitions, as some information is better than none.

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在监测重复循环过程中的杠铃推举速度时，标准化程度最低的视频注释软件能否作为无标记运动跟踪系统的备用软件？

摘要：Mangine，GT，Hines，A，Grazer，J，Esmat，TA 和 McLester，J.在重复循环过程中监测杠铃推举速度时，标准化程度最低的视频注释软件能否用作无标记运动跟踪系统的后备系统？J Strength Cond Res XX(X)：000-000，2024-本研究考察了无标记运动跟踪系统（PERCH）和免费视频注释软件（KINOVEA）在使用最小标准化测量杠铃推举速度时的一致性。在一项更大规模的安慰剂对照补充干预中，10 名男性（28.7 ± 8.0 岁，175 ± 8 厘米，91.0 ± 12.0 千克）和 10 名女性（31.3 ± 5.2 岁，167 ± 4 厘米，70 ± 13 千克）在 5 或 15 分钟内完成了划船、6 次杠铃推举（男性：43.1 千克，女性：29.5 千克）和 3 次 "尽可能多重复"（AMRAP）的箱形跳。杠铃速度（米×秒-1）由 PERCH 从正面进行监测，所有训练均从同一视角进行录像，随后由 KINOVEA 利用自然杠铃地标进行分析。在所有训练和补充条件下，从每位参与者中随机平均抽取 50 次重复训练（n = 1,000 次重复训练）。尽管 Wilcoxon 符号秩检验显示没有差异（平均差异 = 0.03 米 × 秒 -1，p = 0.332），但 KINOVEA 只解释了 PERCH 变异的 2.6%，对 Bland-Altman 图进行的斯皮尔曼相关分析表明，速度的大小加剧了不同技术之间的差异 ( ρ = -0.62，p < 0.001)。使用 KINOVEA 和现成的参与者人口统计数据（臂力和生理性别）进行交叉验证、回归分析后，预测结果提高了 13.4%，但一致性仍不一致 ( ρ = 0.73，p < 0.001)。无论是 KINOVEA 还是 KINOVEA 与参与者人口统计数据相结合，都不能与 PERCH 互换，用于监测 AMRAP 期间的杠铃速度。不过，当 PERCH 无法检测到重复次数时，研究人员和运动员还是可以使用这款免费且易于使用的软件作为备用，因为有信息总比没有信息好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Strength and Conditioning Research 社会科学-运动科学

CiteScore

6.70

自引率

9.40%

发文量

384

审稿时长

3 months

期刊介绍： The editorial mission of The Journal of Strength and Conditioning Research (JSCR) is to advance the knowledge about strength and conditioning through research. A unique aspect of this journal is that it includes recommendations for the practical use of research findings. While the journal name identifies strength and conditioning as separate entities, strength is considered a part of conditioning. This journal wishes to promote the publication of peer-reviewed manuscripts which add to our understanding of conditioning and sport through applied exercise science.