Review: Potensial Pengembangan Teknologi Wearable Atlit di Skala Pendidikan Olahraga
Abstract
Wearable Technology merupakan suatu topik unik yang sangat berkaitan dengan bidang kesehatan, dimana berbeda dari teknologi biasanya device yang dihasilkan memiliki bentuk yang relatif compact dan ringan. Device ini sendiri terdiri dari beberapa komponen utama yaitu sensor dan sistem komunikasi data menuju internet (IoT). Pengembangan device wearable sendiri sampai sekarang relatif mahal dan sulit didapatkan sedangkan secara fungsional device sangat linear dalam bidang pendidikan olahraga. Di paper ini akan diberikan beberapa ulasan wearable technology yang dapat dikembangkan kembali sebagai sarana pembelajaran olahraga terutama sepakbola dan atletik.
References
[2] P. Düking, “Combination of Smartphone Applications , Wearables and Point-of-Care Testing Provides Feedback that Allows Individual Responsive Adjustments to Activities of Daily Living,” pp. 1–11, doi: 10.3390/s18051632, 2018
[3] Kiely, J. Periodization Theory: Confronting an Inconvenient Truth. Sports Med. 2018
[4] P. Düking, “Combination of Smartphone Applications , Wearables and Point-of-Care Testing Provides Feedback that Allows Individual Responsive Adjustments to Activities of Daily Living,” pp. 1–11, doi: 10.3390/s18051632. 2012
[5] (2021) Self Screen website. [online] "Google Finally Reveals Glass Specifications, MyGlass App Now Live". Available: http://www.selfscreen.com/
[6] (2021) Business Insider website. [online] "Google has admitted that releasing Google Glass early may have been a mistake ". Available: http://www.businessinsider.com/.
[7] S. Url, S. Zoology, S. Biologists, T. J. Archive, and T. Archive, “The Future of Systematic Zoology,” vol. 8, no. 2, pp. 82–87 , doi: 10.25561/88893, 2007
[8] ] Ferraroa, Canina “A New Approach to Wearable Systems: Biodesign Beyond the Boundaries”, ICoRD2011 Conference Proceedings, p. 283-291. 2011
[9] Wendrich, Kruiper “Keep it Real: on Tools, Emotion, Cognition and Intentionality in Design”, Design 2016 Proceedings, p. 759-768., 2016
[10] S. L. P. Tang, Wearable sensors for sports performance. Elsevier Ltd., “PDCA12-70 data sheet,” Opto Speed SA, Mezzovico, Switzerland, 2015
[11] C. Stelvaga, Anastasia ;Fortin, “DESIGN PRINCIPLES OF WEARABLES SYSTEMS : AN IOT APPROACH,” vol. 3, no. August, pp. 417–426, 2017.
[12] Frydryskiak, M., Zie˛ba, J.,Textronic sensor for monitoring respiratory rhythm. Fibres Text. East. Eur. 20 (2(91)), 74–78, 2012
[13] .P. Düking, A. Hotho, H. Holmberg, F. K. Fuss, and B. Sperlich, “Comparison of Non-Invasive Individual Monitoring of the Training and Health of Athletes with Commercially Available Wearable Technologies,” vol. 7, no. March, 2016, doi: 10.3389/fphys.2016.00071, 2016
[14] Schutz, Y., and Chambaz, A. Could a satellite-based navigation system (GPS) be used to assess the physical activity of individuals on earth? Eur. J. Clin. Nutr. 51, 338–339. doi: 10.1038/sj.ejcn.160040, 1997
[15] Cummins, C., Orr, R., O’Connor, H., and West, C. Global positioning systems (GPS) and microtechnology sensors in team sports: a systematic review. Sports Med. 43, 1025–1042. doi: 10.1007/s40279-013- 0069-2, 2013
[16] Marino, M., Li, Y., Rueschman, M. N., Winkelman, J. W., Ellenbogen, J. M., Solet, J. M., et al. Measuring sleep: accuracy, sensitivity, and specificity of wrist actigraphy compared to polysomnography. Sleep 36, 1747–1755. doi: 10.5665/sleep.3142, 2013
[17] Spierer, D. K., Rosen, Z., Litman, L. L., and Fujii, K. Validation of photoplethysmography as a method to detect heart rate during rest and exercise. J. Med. Eng. Technol. 39, 264–271. doi: 10.3109/03091902.2015.1047536, 2015
[18] de Zambotti, M., Baker, F. C., and Colrain, I. M. Validation of sleeptracking technology compared with polysomnography in adolescents. Sleep 38, 1461–1468. doi: 10.5665/sleep.4990, 2015
[19] BodyMedia Inc (2021). The Science. Retrieved from: http://www.bodymedia.com/ the_science.html#&whence=
[20] ] Lee, J. M., Kim, Y., and Welk, G. J. Validity of consumer-based physical activity monitors. Med. Sci. Sports Exerc. 46, 1840–1848. doi: 10.1249/MSS.0000000000000287, 2014
[21] Catapult innovations. (2021). Optimeye S5. Retrieved from: http://www. catapultsports.com/au/system/outdoor
[22] Jennings, D., Cormack, S., Coutts, A. J., Boyd, L., and Aughey, R. J. The validity and reliability of GPS units for measuring distance in team sport specific running patterns. Int. J. Sports Physiol. Perform. 5, 328–341, 2010
[23] adidas Pty. Ltd. (2021). Adidas Micoach Smart Run. Retrieved from: http://www. adidas.com.au/micoach-smart-run/G76792.html
[24] Nike Inc. (2021). Nike+ Sportwatch GPS. Retrieved from: https://securenikeplus.nike.com/plus/products/sport_watch/
[25] [Carrè Technologies Inc. (2015). Hexoscin. Retrieved from: http://www.hexoskin. com/
[26] cosinuss (2021). cosinuss One. Retrieved from: http://www.cosinuss.com/en/