Search Results - "Richtungswechsel"
-
1
-
2
Test-retest reliability and comparison of single- and dual-beam photocell timing system with video-based applications to measure linear and change of direction sprint times
Thapa, R. K., Sarmah, B., Singh, T., Kushwah, G. S., Akyildiz, Z., Ramirez-Campillo, R.Published in Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology (2025)“…Richtungswechsel…”
-
3
-
4
Biomechanical determinants of change of direction performance: a systematic review
Singh, U., Leicht, A. S., Connor, J. D., Brice, S. M., Alves, A., Doma, K.Published in Sports Medicine (2025)“…Richtungswechsel…”
-
5
Concurrent agreement and test-retest reliability of a global-positioning-system device for measuring maximal horizontal deceleration ability in elite youth academy soccer players
Jones, L. H., Leduc, C., Greatorex, K., Callaghan, S. J., Weaving, D., Harper, D. J., Bliss, A.Published in International Journal of Sports Physiology and Performance (2025)“…Richtungswechsel…”
-
6
Performance level discriminative validity of agility tests in youth tennis players
Munivrana, G., Jelaska, G., Tomljanovic, M.Published in Frontiers in Sports and Active Living (2025)“…Richtungswechsel…”
-
7
Foot pod technology and their utility for change of direction testing: a technological review
Albarrán, E. J., Cronin, J.Published in Strength and Conditioning Journal (2025)“…Richtungswechsel…”
-
8
Automated detection of change of direction in basketball players using xsens motion tracking
Pinelli, S., Zinno, R., Jòdar-Portas, A., Prats-Puig, A., Font-Lladó, R., Bragonzoni, L.Published in Sensors (2025)“…Richtungswechsel…”
-
9
-
10
-
11
-
12
-
13
Exploring the performance - acl injury risk conflict during anticipated and unanticipated sidestepping tasks
Duchene, Y., Hanen, N. C., Banet, L., Mornieux, G.Published in ISBS Proceedings Archive: Vol. 42: Iss. 1 (2024)“…Richtungswechsel…”
-
14
Sports floor characteristics
Kersting, U. G., Ismail, S. I.Published in Sports technology. Fields of application, sports equipment and materials for sport (2024)“…Richtungswechsel…”
-
15
-
16
From data to action: a scoping review of wearable technologies and biomechanical assessments informing injury prevention strategies in sport
Rebelo, A., Martinho, D. V., Valente-dos-Santos, J., Coelho-e-Silva, M. J., Teixeira, D. S.Published in BMC Sports Science, Medicine and Rehabilitation (2023)“…Richtungswechsel…”
-
17
Human foot muscles strength and its association with acceleration sprinting, cutting and jumping performance kinetics in high-level athletes
Tourillon, R., Michel, A., Edouard, P., Fourchet, F., Morin, J. B.Published in 28th Annual Congress of the European College of Sport Science, 4-7 July 2023, Paris, France (2023)“…Richtungswechsel…”
-
18
Validity, reliability, and sensitivity of mobile applications to assess change of direction speed
Sahin-Uysal, H., Ojeda Aravena, A., Ulas, M., Baez-San Martín, E., Ramirez-Campillo, R.Published in Journal of Human Kinetics (2023)“…Richtungswechsel…”
-
19
Concurrent validation of the Noraxon MyoMotion wearable inertial sensors in change-of-direction and jump-landing tasks
Heuvelmans, P., Benjaminse, A., Bolt, R., Baumeister, J., Otten, E., Gokeler, A.Published in Sports Biomechanics (2022)“…Richtungswechsel…”
-
20
Assessments performed on harder surfaces can misrepresent ACL injury risk
Jones, H. S. R., Stiles, V. H., Verheul, J., Moore, I. S.Published in Sports Biomechanics (2023)“…Richtungswechsel…”