Search Results - Sensors

Rana, M., Mittal, V. Subjects: “…Sensor…”

Gråstén, A. “…Innovations like wearable sensors integrated into helmets offer notable protection benefits in other sports. …”

Fercher, C., Bartsch, J., Kluge, S., Schneider, F., Liedtke, A.M., Schleichardt, A., Ueberschär, O. “…Sensors…”

Lang, G., Fercher, C., Fasel, B., Schmidt, M. Subjects: “…Sensor…”

Wilkins, C., Mulloy, F., Camomilla, V. “…The root mean square of the horse`s acceleration per stride was averaged for the trial. Sensor fusion was performed to elicit rider pelvis and trunk pitch. …”

Bartsch, J., Schneider, F., Fercher, C., Kluge, S., Liedtke, A., Zumnorde-Mertens, E., Ueberschär, O. Subjects: “…Sensor…”

Hagen, J., Brouwer, J., Lux, S., Weiske, F., Jung, F. T. “…A novel, hoof-mounted, inertial measurement unit sensor system (IMU) was used. Ten sound, crossbred horses were fitted with an IMU sensor at the dorsal hoof wall and examined barefoot and after trimming. …”

Egenvall, A., Clayton, H., Engell, M. T., Roepstorff, C., Engström, H., Byström, A. “…Pelvic roll and pitch data were split into strides based on data from IMU-sensors on the horse's hind cannons. Data were analyzed using signal decomposition into the fundamental frequency (the stride frequency) and its first two harmonics. …”

Baxter, J., Hobbs, S. J., Alexander, J., St George, L., Sinclair, J., Chohan, A., Clayton, H. M. “…Kinematic data from the inertial sensors were analyzed in time and frequency domain. …”

Ishac, K., Bourahmoune, K., Carmichael, M. Subjects: “…Sensor…”

Pasquiet, B., Biau, S., Trèbot, Q., Debril, J.-F., Durand, F., Fradet, L. Subjects: “…Sensor…”

Domino, M., Borowska, M., Zdrojkowski, L., Jasinski, T., Sikorska, U., Skibniewski, M., Masko, M. “…Sensors…”

West, A., Gupta, V., Smythe, M., Staiger, E. A., Bao, Y., Brooks, S. A. “…One such tool, the Lameness Locator, analyzes motion data recorded by accelerometers mounted to the horse with bandages, stickers or hats. Tactile sensors in horse skin across the body can detect pressures as small as 0.008g, which is comparable to the sensitivity of a human fingertip. …”

Egan, S., Brama, P. A. J., Goulding, C., McKeown, D., Kearney, C. M., McGrath, D. “…Sensors…”

MacKechnie-Guire, R., Pfau, T. “…This study aimed at quantifying kinematic differences in dressage horses when ridden in sitting trot-i.e. with additional load applied in the thoracolumbar region-compared with trotting in-hand. Inertial sensors were glued on to the midline of the thoracic (T) and lumbar (L) spine at T5, T13, T18, L3 and middle of the left and right tubera sacrale of ten elite dressage horses (Mean±SD), age 11±1 years, height 1.70±0.10m and body mass 600±24kg; first trotted in-hand, then ridden in sitting trot on an arena surface by four Grand Prix dressage riders. …”

Izzo, R., Convertini, A., D'Isanto, T., Cejudo, A., Vardei, C. H. “…In particular, through the use of inertial sensors (IMU) the impacts on the spine that occur during a training session on horseback will be analysed with specifications currently not present in the literature. …”

Di Tocco, J., Sabbadini, R., Raiano, L., Fani, F., Ripani, S., Schena, E., Formica, D., Massaroni, C. “…Sensors…”

Tijssen, M., Hernlund, E., Rhodin, M., Bosch, S., Voskamp, J. P., Nielen, M., Serra Braganca, F. M. Subjects: “…Sensor…”

Schmutz, A., Chèze, L., Jacques, J., Martin, P. Subjects: “…Sensor…”

Egan, S., McKeown, D., McGrath, D. Subjects: “…Sensor…”