Remote Monitoring of Team Synchronization in Rowing Sport
Yıl 2022,
Cilt: 6 Sayı: 2, 109 - 118, 16.09.2022
İrem Naz Aksoy
,
Zeliha Merve Çetinok
Talha Üzümcü
,
Adil Deniz Duru
Öz
In this research, an infrastructure was designed to measure the synchronization of rowers with each other with numerical reliability by using rowing ergometer and Kinect camera. 2 licensed national male rowers and 2 licensed female rowers who competed in double scull boat classes were included in this study. Rowers were asked to cover 1000m using a rowing ergometer in sync with each other in the 32-34 tempo range. Synchronization between athletes as a result of marking the relevant anatomical junction areas with virtual sensors using the Concept 2 rowing ergometer and Microsoft Kinect V2 camera, the synchronization of the athletes between each other in time was displayed and analyzed. By taking the average of the anatomical junction points, a synchronization coefficient showing the synchronization within the team was created and the coordination dynamics was monitored. The synchronization of the female double scull team and the male double scull team with each other was found to be significantly higher, but the synchronization of the male double scull team was lower than the female double scull team.
Destekleyen Kurum
Marmara Üniversitesi
Proje Numarası
23.05.2022 - 56
Kaynakça
- Avvenuti M, Cesarini D And Cimino MG. Mars, A Multiagent System For Assessing Rowers’ Coordination Via Motion-Based Stigmergy. Sensors 2013; 13: 12218–12243.
- De Poel HJ, De Brouwer AJ, Cuijpers LS. Crew Rowing: An Archetype Of İnterpersonal Coordination Dynamics. In: Passos P, Davids K, Chow JY, Eds. Interpersonal Coordination And Performance İn Social Systems. New York, NY, USA: Routledge; 2016.
- Filippeschi, A., Ruffaldi, E., Frisoli, A., Avizzano, C. A., Varlet, M., Marin, L., Lagarde, J., Bardy, B., & Bergamasco, M. (2009). Dynamic Models Of Team Rowing For A Virtual Environment Rowing Training System. International Journal Of Virtual Reality, 8(4), 49–56. https://doi.org/10.20870/ıjvr.2009.8.4.2749
- Harfield, P., Halkon, B., Mitchell, S., Phillips, I., & May, A. (2014). A Novel, Real-Time Biomechanical Feedback System For Use İn Rowing. Procedia Engineering, 72, 126-131.
- Hartmann, U., Mader, Alois.: Rowing Physiology. Ed: Nolte, Volker., Rowing Faster. S. 9-24. Human Kinetics. 2005.
- Kleshnev V. Case Study Of Synchronization. Rowing Biomechanics Newsletter, No. 168, http://www.biorow.com/rbn_en_2015_files/2015rowbiomnews03.pdf (2015, Assessed 29 September 2015).
- Lormes W, Buckwitz R, Rehbein H, Steinacker JM. Performance And Blood Lactate On Gjessing And Concept II Rowing Ergometers. Int J Sports Med 1993; 14(Suppl 1): 29-31.
- Mayglothling R, Mayglothling T. Rowing And Sculling, 2014.Sayfa:19. Http://Libro.b20.Net/Reader/Rdr.Aspx? B=1729747. E-Book (Erişim:).
- Nolte, Volker.: Rigging. Ed: Nolte, Volker. Rowing Faster. S.125-140, Human Kinetics. 2005
Pulman C. The Physics Of Rowing, http://eodg.atm.ox.ac.uk/user/dudhia/rowing/physics/rowing.pdf (2005, Assessed 29 September 2015).
- Ross A. Clark, Benjamin F. Mentiplay, Emma Hough, Yong Hao Pua, Three-Dimensional Cameras And Skeleton Pose Tracking For Physical Function Assessment: A Review Of Uses, Validity, Current Developments And Kinect Alternatives, Gait & Posture, Volume 68, 2019, Pages 193-200, ISSN 0966-6362. https://doi.org/10.1016/j.gaitpost.2018.11.029
- Rumball ve Ark. Rowing Injuries. Sports Medicine, 35(6), 537–555, 2005.
- Topsakal, N. Kürek Sporunda Ekip Performansına Bireysel Katkının Araştırılması. MÜ SBE. Beden Eğitimi ve Spor Ana Bilim Dalı Yüksek Lisans Tezi. İstanbul, 2007. (Danışman: Doç. Dr. Birol ÇOTUK)
- Yang L, Zhang L, Dong H, Alelaiwi A, Saddik AE, Evaluating And İmproving The Depth Accuracy Of Kinect For Windows V2, IEEE Sensors Journal. 15 (2015) 4275-85.
- Ruud J.R. Den Hartigh, Vivien Marmelat, Ralf F.A. Cox, Multiscale coordination between athletes: Complexity matching in ergometer rowing, Human Movement Science, Volume 57, 2018, Pages 434-441,
Kürek Sporunda Takım Senkronizasyonunun Uzaktan Algılama ile İzlenmesi
Yıl 2022,
Cilt: 6 Sayı: 2, 109 - 118, 16.09.2022
İrem Naz Aksoy
,
Zeliha Merve Çetinok
Talha Üzümcü
,
Adil Deniz Duru
Öz
Bu araştırma kapsamında kürek ergometresi ve Kinect kamera kullanılarak kürekçilerin birbirleri arasındaki senkronizasyonunu sayısal güvenirlilik ile ölçen bir alt yapı kurgulanmıştır. Bu araştırmaya iki çifte tekne sınıfında yarışmış 2 lisanslı milli erkek kürekçi ve 2 lisanslı kadın kürekçi dahil edilmiştir. Kürekçilerden 1000 m mesafeyi kürek ergometresi kullanarak birbirlerine senkronize bir şekilde 32-34 tempo aralığında kat etmeleri istenmiştir. Sporcular arası senkronizasyon Concept 2 kürek ergometresi ve Microsoft Kinect V2 kamerası kullanılarak ilgili anatomik birleşme bölgelerinin sanal sensörler ile işaretlenmesi sonucu sporcuların birbirileri arasında zamanda değişen senkronizasyonları görüntülenip, analiz edilmiştir. Anatomik birleşme noktalarının ortalaması alınarak ekip içi senkronizasyonu gösteren bir senkronizasyon kat sayısı oluşturularak, koordinasyon dinamiği izlenmiştir. Kadın iki çifte ve erkek iki çifte ekibinin birbirleri ile olan senkronizasyonları anlamlı derecede yüksek bulunurken erkek ekibin, kadın ekibe kıyasla senkronizasyonları düşük bulunmuştur.
Proje Numarası
23.05.2022 - 56
Kaynakça
- Avvenuti M, Cesarini D And Cimino MG. Mars, A Multiagent System For Assessing Rowers’ Coordination Via Motion-Based Stigmergy. Sensors 2013; 13: 12218–12243.
- De Poel HJ, De Brouwer AJ, Cuijpers LS. Crew Rowing: An Archetype Of İnterpersonal Coordination Dynamics. In: Passos P, Davids K, Chow JY, Eds. Interpersonal Coordination And Performance İn Social Systems. New York, NY, USA: Routledge; 2016.
- Filippeschi, A., Ruffaldi, E., Frisoli, A., Avizzano, C. A., Varlet, M., Marin, L., Lagarde, J., Bardy, B., & Bergamasco, M. (2009). Dynamic Models Of Team Rowing For A Virtual Environment Rowing Training System. International Journal Of Virtual Reality, 8(4), 49–56. https://doi.org/10.20870/ıjvr.2009.8.4.2749
- Harfield, P., Halkon, B., Mitchell, S., Phillips, I., & May, A. (2014). A Novel, Real-Time Biomechanical Feedback System For Use İn Rowing. Procedia Engineering, 72, 126-131.
- Hartmann, U., Mader, Alois.: Rowing Physiology. Ed: Nolte, Volker., Rowing Faster. S. 9-24. Human Kinetics. 2005.
- Kleshnev V. Case Study Of Synchronization. Rowing Biomechanics Newsletter, No. 168, http://www.biorow.com/rbn_en_2015_files/2015rowbiomnews03.pdf (2015, Assessed 29 September 2015).
- Lormes W, Buckwitz R, Rehbein H, Steinacker JM. Performance And Blood Lactate On Gjessing And Concept II Rowing Ergometers. Int J Sports Med 1993; 14(Suppl 1): 29-31.
- Mayglothling R, Mayglothling T. Rowing And Sculling, 2014.Sayfa:19. Http://Libro.b20.Net/Reader/Rdr.Aspx? B=1729747. E-Book (Erişim:).
- Nolte, Volker.: Rigging. Ed: Nolte, Volker. Rowing Faster. S.125-140, Human Kinetics. 2005
Pulman C. The Physics Of Rowing, http://eodg.atm.ox.ac.uk/user/dudhia/rowing/physics/rowing.pdf (2005, Assessed 29 September 2015).
- Ross A. Clark, Benjamin F. Mentiplay, Emma Hough, Yong Hao Pua, Three-Dimensional Cameras And Skeleton Pose Tracking For Physical Function Assessment: A Review Of Uses, Validity, Current Developments And Kinect Alternatives, Gait & Posture, Volume 68, 2019, Pages 193-200, ISSN 0966-6362. https://doi.org/10.1016/j.gaitpost.2018.11.029
- Rumball ve Ark. Rowing Injuries. Sports Medicine, 35(6), 537–555, 2005.
- Topsakal, N. Kürek Sporunda Ekip Performansına Bireysel Katkının Araştırılması. MÜ SBE. Beden Eğitimi ve Spor Ana Bilim Dalı Yüksek Lisans Tezi. İstanbul, 2007. (Danışman: Doç. Dr. Birol ÇOTUK)
- Yang L, Zhang L, Dong H, Alelaiwi A, Saddik AE, Evaluating And İmproving The Depth Accuracy Of Kinect For Windows V2, IEEE Sensors Journal. 15 (2015) 4275-85.
- Ruud J.R. Den Hartigh, Vivien Marmelat, Ralf F.A. Cox, Multiscale coordination between athletes: Complexity matching in ergometer rowing, Human Movement Science, Volume 57, 2018, Pages 434-441,