Suchergebnisse - Gliding

Yu, H., Li, Y. “… Background As one of the oldest sports events in world sports history, cross-country skiing involves basic techniques such as mountaineering, skiing, and gliding, covering multiple classic actions during the process.  …”

Kalliorinne, K., Hindér, G., Sandberg, J., Larsson, R., Holmberg, H.-C., Almqvist, A. “… As a result of the flexible modern cross-country skis, the camber profile and gliding properties to be influenced by the skiers` position.  …”

Sandberg, J., Hindér, G., Holmberg, H.-C., Almqvist, A., Larsson, R. “… The position of the center of mass has little to no effect on the rear glide zone but slightly alters the length and position of the front glide zone.  …”

Hindér, G., Sandberg, J., Kalliorinne, K., Holmberg, H.-C., Almqvist, A., Larsson, R. “… This underscores the need for meticulous application of grip wax application, tailored to the snow conditions, ski camber profile and racecourse demands, to minimise impact on gliding performance whilst maintaining sufficient static coefficient of friction for effective use of the diagonal stride technique.  …”

Novikova, N. B., Novikov, A. N., Ivanova, I. G., Belyova, A. N. “… The examination of video footage of athletes gliding on roller skis at their top speed was conducted using a specially designed software that incorporates a motion-detection system for athletes, powered by the Alpha Pose neural network.  …”

Auganæs, S. B. “… As a consequence, a lot of effort is put into developing fast skis and glide products. In this development process, glide testing is essential to distinguish small differences between the products.  …”

Guo, Y., Ju, R., Li, K., Lan, Z., Niu, L., Hou, X., Qian, S., Chen, W., Liu, X., Li, G. “… In addition, this study adopted the commonly used inertial sensor data for action recognition, combined with the load cell data as the input of the ski technical action recognition algorithm, and the recognition accuracy of five kinds of cross-country skiing technical actions (Diagonal Stride (DS), Double Poling (DP), Kick Double Poling (KDP), Two-stroke Glide (G2) and Five-stroke Glide (G5)) reached 99.5%, and the accuracy was significantly improved compared with similar recognition systems.  …”

Kalliorinne, K., Sandberg, J., Hind´er, G., Holmberg, H. C., Supej, M., Larsson, R., Almqvist, A. “… Over the years, researchers have found many ways ofquantifying ski-snow friction, but there are only a few methods that consider the glide of real-sized skis under natural conditions during both accelerating and decelerating movements.  …”

Debertin, D., Haag, L., Federolf, P. “… The objective of this study was to translate 14 curricula-informed distinct elements of the V2 ski-skating technique (horizontal and vertical posture, lateral tilt, head position, upper body rotation, arm swing, shoulder abduction, elbow flexion, hand and leg distance, plantar flexion, ski set-down, leg push-off, and gliding phase) into plausible, valid and applicable measures to make the technique training process more quantifiable and scientifically grounded.  …”

Rindal, O. M. H., Gløersen, Ø., Tjønnås, J. “… DISCUSSION/CONCLUSION: We can observe that running diagonal significantly reduces the length of the gliding sub-phase, and also has a more noisy transition into the thrust sub-phase. …”

Debertin, D. “… METHODS: Ten experienced XC skiers (5 females, age 30±8y, national or FIS licenced as instructor or athlete) performed the V2 technique according to curriculum guidelines [3] and according to 14 technique variations, each represented through two opposite extremes: weight shift (forth/back, up/down, lateral/centered), inward/outward upper body rotation, closed/opened legs, flat/canted ski strike, flat/canted ski off, long/short gliding phase, raised/lowered head, lowered/lifted heel, highly extended/flexed elbows, lowered/lifted elbows, maximal/minimal arm swing, closed/opened hands.  …”

Lindinger, S., Karczewska-Lindinger, M., Piitulaine, H., Giangrande, A., Piirainen, J. “… However, velocity-related differences were observed at highest forces (Slow 64.7%; Fast -19.8%) and mid-glide phase (Slow 53.0%; Fast 5.8%) compared to SLR.  …”

Masyagina, N. V., Leontieva, M. S., Pushkina, V. N., Sedogin, E. A. “… Thus, with the correct location of the ski treatment zones with a gliding compound, the skier / biathlete will not experience critical technical and biomechanical changes in the technique of movement when using artificial turf, which will make it possible to organize the training process at the preparatory stage of training athletes in conditions as close as possible to the competition. preparation stage. …”

Werkhausen, A., Lundervold, A., Gløersen, Ø. “… Active preloading at the end of the glide phase may facilitate these mechanisms. …”

Werkhausen, A., Lundervold, A., Gløersen, Ø. “… Active preloading at the end of the glide phase may benefit the mechanisms. REFERENCES: 1 Roberts, T. & Azizi, E., 2011.  …”

Mössner, M., Schindelwig, K., Heinrich, D., Hasler, M., Nachbauer, W. “… For cross-country skis gliding on snow, the apparent contact area increased for increased normal load, softer snow, and decreased ski stiffness and camber.  …”

Scherge, M., List, S., Hollenbacher, J. “… INTRODUCTION: The biomechanical relationship between walking and gliding was investigated in an elite-class cross-country skier.  …”

Lindinger, S., Piitulainen, H., Karczewska-Lindinger, M., Giangrande, A., Piirainen, J. M. “… However, velocity-related differences were observed at highest forces (Slow 64.7%; Fast -19.8%) and mid-glide phase (Slow 53.0%; Fast 5.8%) compared to SLR.  …”

Masaki, T., Naoto, M., Shunya, U., Linnamo, V., Lindinger, S., Stöggl, T. “… One time trial with a slower gliding speed ski and one with a faster gliding ski controlled by different kinds of ski waxing and in randomized order across participants.  …”

Gløersen, Ø., Hoel Rindal, O. M., Tjønnås, J. “… RESULTS: There were high correlations between rated "glide" and measured friction coefficient (r = 0.79-0.94), and between "lead" and deceleration during the glide phase (r = 0.71-0.77).  …”