Augmentation for Blood Doping Discovery in Sports using Random Forest Ensembles with LightGBM-Reference-Cited by-同舟云学术

Augmentation for Blood Doping Discovery in Sports using Random Forest Ensembles with LightGBM

Published:2022-07-26 Issue:2 Volume:4 Page:115-124
ISSN:2582-337X
Container-title:Journal of Ubiquitous Computing and Communication Technologies
language:en
Short-container-title:JUCCT

Author:

Sasikala D.,Venkatesh Sharma K.

Abstract

Athletics bureaucrats round the globe are tackling implausible encounters owing to the partial methods of customs executed by the athletes to progress their enactment in their sports. It embraces the intake of hormonal centred remedies or transfusion of blood to upsurge their power and the effect of their coaching. On the other hand, the up-to-date direct test of discovery of these circumstances embraces the laboratory-centred technique viz restricted for the reason that of the cost factors, handiness of medical experts, etc. This ends us to pursue for indirect assessments. By the emergent curiosity of Artificial Intelligence (AI) in healthcare, it is vital to put forward a process built on blood factors to advance decision making. In this research script, a statistical and machine learning (ML) centred tactic was suggested to ascertain the concern of doping constituent rhEPO in blood units.

Publisher

Inventive Research Organization

Subject

General Earth and Planetary Sciences,General Environmental Science

Link

https://irojournals.com/jucct/article/pdf/4/2/6

Reference22 articles.

1. [1] Galily, Y. (2018). Artificial intelligence and sports journalism: Is it a sweeping change? Technology in Society, 54, 47-51.

2. [2] Jelkmann, W. (2016). Features of Blood Doping. Deutsche Zeitschrift f¨ur Sportmedizin, 67, 255-262.

3. [3] WADA (2021). World Anti-Doping Code 2021, World Anti-Doping Agency.

4. [4] John, M. J., Jaison, V., Jain, K., Kakkar, N., and Jacob, J. J. (2012). Erythropoietin use and abuse, Indian journal of endocrinology and metabolism, 16(2), 220–227.

5. [5] Manfredini, F., Malagoni, A. M., Litmanen, H., Zhukovskaja, L., Jeannier, P., Follo, D., Felisatti, M., Besseberg, A., Geistlinger, M., Bayer, P. and Carrabre, J. (2011). Performance and blood monitoring in sports: The artificial intelligence evoking target testing in antidoping (AR.I.E.T.T.A.) project. J Sports Med Phys Fitness, 51(1):153-9.

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