All Title Author
Keywords Abstract

Publish in OALib Journal
ISSN: 2333-9721
APC: Only $99


Relative Articles


Analysis of Starting Pressure-Time Curve of the Top Eight Athletes of Women’s 100 m in Guangzhou Asian Games

DOI: 10.4236/ape.2023.131002, PP. 7-16

Keywords: Training, Starting, Monitoring System

Full-Text   Cite this paper   Add to My Lib


With the measurement of e-starting monitoring system as the main research method, this paper has studied variables of the start-pedal pressure curve of top eight athletes of women’s 100 meter dash in the system in the Guangzhou Asian games, which aims toexplore the factors affecting the sprint starting technology, providing theoretical reference for sprint training in our country. The research showedvarious parameters in the sprint starting pressure curve increase accordingly with the importance of the race; the peak power of both legs is the key toimprove the starting technology; and the collaboration of both legs’ pedal is the keyfactoraffecting the peak power, which indicated improvement ofcollaboration of athletes’ both legs’pedal is crucialto the sprint starting technology.


[1]  Henry, F. M. (1992). Le dens du temps (IV). Macolin, No. 7, 42-47.
[2]  Jiang, H. B. (2016). Research on the Correlation between Starting Response and Sports Performance in Track and Field Short cross Events. Journal of Capital University of Physical Education and Sports, 28, 469-475+480. (In Chinese)
[3]  Lai, G. Y., & Chen, C. (2010). SPSS17.0 Chinese Version of the Common Functions and Application Examples Analysis. Publishing House of Electronics Industry, Beijing, 119-120, 219-210. (In Chinese)
[4]  Lu, X. Z., & Fan, Y. X. (2022). Factors Affecting the Starting Ability of Male 100 m Runners in China. China Sports Science and Technology, No. 8, 3-8. (In Chinese)
[5]  Luo, J. N., Xie, H. C., & Du, S. W. (2012). Research on Features of Time-pressure Curve of Sprint Start-Pedal Based on the Samples of Male Sprinters of 100 m in the 16th Asian Games. Journal of Guangzhou Sport University, No. 2, 106-110. (In Chinese)
[6]  Wu, Z. G., & Huang, S. F. (1993). The Definition of the Explosive Force. Journal of Beijing Sport University, No. 2, 50-51. (In Chinese)
[7]  Xie, H. C. (2016). Factors Influencing Start-Reaction Time in Sprint with Application of Electronic Monitoring System. Journal of Wuhan Institute of Physical Education, No. 3, 81-85. (In Chinese)
[8]  Xie, H. C., & Luo, J. N. (2013). Research on the Effectiveness of Measuring Method of the Electronic Monitoring System in Sprint. Journal of Guangzhou Sport University, No. 1, 75-77. (In Chinese)
[9]  Zhang, D. L. (2010). A Comparative Study on Sprinters Start Reaction Time in the 29th Olympic Games. Journal of Zhaoqing College, No. 8, 60-63. (In Chinese)
[10]  Zhang, W. T., & Zhan, X. M. (2014). The Analysis on Micro Structure of Crouch Start Technique—Characteristic Analysis on Start Time-Pressure Curve of Excellent Domestic Part 110 m Male Hurdlers. Journal of Jiangxi Normal University (Natural Science Edition), No. 3, 324-327. (In Chinese)
[11]  Zhao, W. K., Wu, W., Han, D., Zhang, J. G., & Xie, Z. M. (2011). Study on the Judging Parameter of False Start. Journal of Capital University of Physical Education and Sports, No. 3, 251-254. (In Chinese)
[12]  Zhu, X. H. (2005). Research on the Reaction and Performance of Foreign Outstanding Men’s 100-Meter Start. Journal of Chengdu Sport University, No. 1, 47-49. (In Chinese)


comments powered by Disqus

Contact Us


WhatsApp +8615387084133

WeChat 1538708413