Search Results - "technical and natural sciences"
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1
Horse gait analysis using wearable inertial sensors and machine learning
Rana, M., Mittal, V.Published in Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology (2025)“…technical and natural sciences…”
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Smart technologies and the future of concussion prevention in ice hockey
Gråstén, A.Published in Frontiers in Sports and Active Living (2025)“…technical and natural sciences…”
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Marker based and markerless motion capture for equestrian rider kinematic analysis: A comparative study
Cameron-Whytock, H., Divall, H., Lewis, M., Apps, C.Published in Journal of Biomechanics (2025)“…technical and natural sciences…”
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4
Effects of natural and synthetic fibers in turfgrass horse racing surfaces as characterized by triaxial shear tests
Schmitt, P., Erbland, P., Peterson, M. L.Published in Sports Engineering (2025)“…technical and natural sciences…”
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Applying multi-purpose commercial inertial sensors for monitoring equine locomotion in equestrian training
Fercher, C., Bartsch, J., Kluge, S., Schneider, F., Liedtke, A.M., Schleichardt, A., Ueberschär, O.Published in Sensors (2024)“…technical and natural sciences…”
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IMU- & GNSS- basierte Analyse des Springreitens (IMU- & GNSS- based analysis of show jumping)
Lang, G., Fercher, C., Fasel, B., Schmidt, M.Published in 15. Symposium der dvs-Sektion "Sportinformatik und Sporttechnologie": Zwischen Geistesakrobatik und praktischer Anwendung: Innovationen in der Sportinformatik und Sporttechnologie (2024)“…technical and natural sciences…”
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7
Exploring the attenuation interaction between horse and rider in sitting trot using inertial measurement units
Wilkins, C., Mulloy, F., Camomilla, V.Published in ISBS Proceedings Archive: Vol. 42: Iss. 1 (2024)“…technical and natural sciences…”
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Comparing equestrian helmets with and without rotational technology using an equestrian concussive-specific helmet test protocol
Murphy, A., Post, A., Gilchrist, M. D., Hoshizaki, B.Published in Sports Engineering (2024)“…technical and natural sciences…”
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Entwicklung eines inertialsensorbasierten Monitoring-Systems für biomechanische Ganganalysen bei Sportpferden (Development of an inertial sensor-based monitoring system for biomechanical gait analysis in sport horses)
Bartsch, J., Schneider, F., Fercher, C., Kluge, S., Liedtke, A., Zumnorde-Mertens, E., Ueberschär, O.Published in dvs-Biomechanik 2023 Tagungsband (2023)“…technical and natural sciences…”
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10
Characteristics of hoof landing in sound horses and the influence of trimming and shoeing examined with hoof-mounted inertial sensors
Hagen, J., Brouwer, J., Lux, S., Weiske, F., Jung, F. T.Published in Journal of Equine Veterinary Science (2023)“…technical and natural sciences…”
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11
An IoT sensing platform and serious game for remote martial arts training
Ishac, K., Bourahmoune, K., Carmichael, M.Published in Sensors (2023)“…technical and natural sciences…”
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Skilled riders manage horse gait complexity through a gait transition whilst also maintaining stable horse-rider coordination variability
Wilkins, C. A., Mulloy, F.Published in ISBS Proceedings Archive (Michigan) (2023)“…technical and natural sciences…”
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Detection of horse locomotion modifications due to training with inertial measurement units: A proof-of-concept
Pasquiet, B., Biau, S., Trèbot, Q., Debril, J.-F., Durand, F., Fradet, L.Published in Sensors (2022)“…technical and natural sciences…”
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Application of the two-dimensional entropy measures in the infrared thermography-based detection of rider: horse bodyweight ratio in horseback riding
Domino, M., Borowska, M., Zdrojkowski, L., Jasinski, T., Sikorska, U., Skibniewski, M., Masko, M.Published in Sensors (2022)“…technical and natural sciences…”
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15
The effect of stirrup length on impact attenuation and its association with muscle strength
Keener, M. M., Critchley, M. L., Layer, J. S., Johnson, E. C., Barrett, S. F., Dai, B.Published in The Journal of Strength and Conditioning Research (2021)“…technical and natural sciences…”
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A system for simulating the kinematics and measuring the impact force from riding whips used in thoroughbred horseracing
Bridge, J. W., Dempsey, K. M., Danicki, K. M., Angotti, R. L., Kwiatkowski, A. K., Heleski, C. R., Peterson, M. L.Published in Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology (2021)“…technical and natural sciences…”
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The influence of impact surface on head kinematics and brain tissue response during impacts with equestrian helmets
Clark, J. M., Connor, T. A., Post, A., Hoshizaki, T. B., Gilchrist, M. D.Published in Sports Biomechanics (2021)“…technical and natural sciences…”
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Development of a video analysis protocol and assessment of fall characteristics in equestrian cross-country eventing
Nylund, L. E., Sinclair, P. J., McLean, A. N., Cobley, S.Published in Scandinavian Journal of Medicine & Science in Sports (2021)“…technical and natural sciences…”
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Withers vertical movement asymmetry in dressage horses walking in different head-neck positions with and without riders
Egenvall, A., Byström, A., Roepstorff, L., Rhodin, M., Weishaupt, M. A., van Weeren, R., Clayton, H. M.Published in Journal of Veterinary Behavior Clinical Applications and Research (2020)“…technical and natural sciences…”
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The feasibility of equine field-based postural sway analysis using a single inertial sensor
Egan, S., Brama, P. A. J., Goulding, C., McKeown, D., Kearney, C. M., McGrath, D.Published in Sensors (2021)“…technical and natural sciences…”