Search Results - Sensors
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Effect of forearm compression sleeves on the exercise performance of sport climbers
Sas-Nowosielski, K., Kluska-Cyba, K.Published in Journal of Kinesiology and Exercise Sciences (2024)“…Power measurements were taken using a Gyko inertial sensor. Results: Under compression, statistically significant differences were only observed for the subjective sensation of forearm `pump` on the campus board trial (p=0.007, ES=0.64). …”
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Towards automatic object detection and activity recognition in indoor climbing
Vrzáková, H., Koskinen, J., Andberg, S., Lee, A., Amon, M. J.Published in Sensors (2024)“…Sensors…”
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Assessing the impact of neuromuscular electrical stimulation-based fingerboard training versus conventional fingerboard training on finger flexor endurance in intermediate to advan...
Dindorf, C., Dully, J., Berger, J., Becker, S., Wolf, E., Simon, S., Bartaguiz, E., Kemmler, W., Fröhlich, M.Published in Sensors (2024)“…Sensors…”
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Upper limb kinematics of an elite climber during a power slap task
Briley, S., Mitchell, J., Taylor, N., Chidley, J., Outram, T.Published in 28th Annual Congress of the European College of Sport Science, 4-7 July 2023, Paris, France (2023)“…Retroreflective markers and IMU sensors were attached to the torso, pelvis, upper arms, and forearms. …”
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Climbing technique evaluation by means of skeleton video stream analysis
Beltrán Beltrán, R., Richter, J., Köstermeyer, G., Heinkel, U.Published in Sensors (2023)Subjects: “…Sensor…”
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Wearable and non-invasive sensors for rock climbing applications: science-based training and performance optimization
Breen, M., Reed, T., Nishitani, Y., Jones, M., Breen, H. M., Breen, M. S.Published in Sensors (2023)Subjects: “…Sensor…”
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Design of a sensor network for the quantitative analysis of sport climbing
Colombo, A., Maj, R., Canina, M., Fedeli, F., Dozio, N., Ferrise, F.Published in Frontiers in Sports and Active Living (2023)Subjects: “…Sensor…”
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Acute effect of high-intensity climbing on performance and muscle oxygenation in elite climbers
Feldmann, A., Lehmann, R., Wittmann, F., Wolf, P., Baláš, J., Erlacher, D.Published in Journal of Science in Sport and Exercise (2022)“…During the SCT muscle oxygenation (SmO2) metrics were collected via NIRS sensors on the forearm. The HIT had significant deteriorating effects on all force production metrics (MVC - 18%, SCT - 55%, ICT - 59%). …”
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Innovative force sensor for indoor climbing holds - real-time measurements and data processing, design and validation
Maffiodo, D., Sesana, R., Gabetti, S., Colombo, A.Published in Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology (2020)Subjects: “…Sensor…”
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Climbers` perception of hold surface properties: Roughness versus slip resistance
Fuss, F. K., Weizman, Y., Niegl, G., Tan, A. M.Published in Frontiers in Psychology (2020)“…The ratio of friction to normal force (denoted friction coefficient or COF subsequently) was obtained from the sensor data, and the subjective ranking of the surface properties was provided by the participants. …”
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Methods for quantitative evaluation of force and technique in competitive sport climbing
Pandurevic, D., Sutor, A., Hochradel, K.Published in Journal of Physics: Conference Series (2019)“…To achieve this, we equipped each hold with a three-axis force sensor and combined this with a three-dimensional markerless motion capture system based on a depth camera. …”
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Performing pull-ups with small climbing holds influences grip and biomechanical arm action
Vigouroux, L., Devise, M., Cartier, T, Aubert, C., Berton, E.Published in Journal of Sports Sciences (2019)“…A vertical force platform sensor measured the force exerted by climbers when performing pull-ups under six different grip conditions (gym-bar, large climbing hold, and four small climbing holds: 22mm, 18mm, 14mm, and 10mm). …”
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