Search Results - "technical and natural sciences"
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Strength and push gait asymmetry in skeleton athletes
Gong, M., Liu, Y., Cao, Z., Gao, B.Published in Journal of Human Kinetics (2025)“…technical and natural sciences…”
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Datenkraft: KI im Rodel- und Bobsport (Data power: AI in luge and bobsleigh sports)
Redaktion Zeitschrift LEISTUNGSSPORTPublished in Leistungssport (2025)“…technical and natural sciences…”
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A trajectory simulation model to analyse the factors influencing the descent of a Skeleton athlete
Vracas, N. S., Short, D., Banks, J., Taunton, D. J., Turnock, S. R.Published in Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology (2024)“…technical and natural sciences…”
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Messrodel - Practise Report (Measuring sled - Practise report)
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Aerodynamic optimization of athlete posture using virtual skeleton methodology and computational fluid dynamics
Giljarhus, K. E. T., Liland, F. F., Bardal, L. M., Oggiano, L.Published in Journal of Biomechanics (2024)“…technical and natural sciences…”
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Forefoot bending stiffness in the bobsleigh push-start
Goldmann, J.-P., Pohlen, J., Zedler, M.Published in ISBS Proceedings Archive: Vol. 42: Iss. 1 (2024)“…technical and natural sciences…”
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Evaluating performance measures for the bobsleigh push start
Zedler, M., Braunstein, B., Potthast, W., Goldmann, J.-P.Published in ISBS Proceedings Archive (Michigan) (2023)“…technical and natural sciences…”
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Development of the instrumentation of a 4-man bobsled
Onasch, F., Sawatsky, A., Stano, A., Herzog, W.Published in Journal of Biomechanics (2023)“…technical and natural sciences…”
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Kinematic determinants of acceleration in skeleton push phase
Gong, M., Gao, C., Tian, G., Gao, B.Published in International Journal of Performance Analysis in Sport (2021)“…technical and natural sciences…”
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Analysis of running motion in the starting phase of male skeleton athletes at international competitions
Oguchi, T., Ae, M., Schwameder, H., Arii, S., Harigai, R.Published in ISBS Proceedings Archive (Michigan) (2021)“…technical and natural sciences…”
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A non-invasive vision-based approach to velocity measurement of skeleton training
Evans, M., Needham, L., Colyer, S. L., Cosker, D. P.Published in IEEE/CVF Conference on Computer Vision and Pattern Recognition (2020)“…technical and natural sciences…”
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Unveiling ice friction and aerodynamic drag at the initial stage of sliding on ice: Faster sliding in winter sports
Irbe, M., Gross, K. A., Viba, J., Cerpinska, M.Published in Tribology International (2021)“…technical and natural sciences…”
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A smaller bearing ratio, as a surface texture measure, promotes faster sliding on ice
Jansons, E., Lungevics, J., Jerane, I., Gross, K. A.Published in Journal of Tribology (2021)“…technical and natural sciences…”
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Can markerless pose estimation algorithms estimate 3D mass centre positions and velocities during linear sprinting activities?
Needham, L., Evans, M., Cosker, D. P., Colyer, S. L.Published in Sensors (2021)“…technical and natural sciences…”
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Step characteristics of international-level skeleton athletes in the starting phase of official races
Oguchi, T., Ae, M., Schwameder, H.Published in Sports Biomechanics (2021)“…technical and natural sciences…”
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Aerodynamic drag reduction in winter sports: The quest for "free speed."
Brownlie, L.Published in Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology (2020)“…technical and natural sciences…”
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A non-invasive vision-based approach to velocity measurement of skeleton training
Evans, M., Needham, L., Colyer, S. L., Cosker, D.Published in IEEE/CVF Conference on Computer Vision and Pattern Recognition (2020)“…technical and natural sciences…”