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GYKO
ジャイコ
身体運動用慣性計測システム
オンラインデモ、サポートのご依頼はこちらから!
御見積り依頼はこちらから!
機器詳細、金額は下記URLからご確認ください!
http://sandcplanning.com/solution/category/detail/?cd=49
参考文献
| 1.LESINSKI, Melanie; MUEHLBAUER, Thomas; GRANACHER, Urs. Concurrent validity of the Gyko inertial sensor system for the assessment of vertical jump height in female sub-elite youth soccer players. BMC sports science, medicine and rehabilitation, 2016, 8.1: 35. |
| 2.AREDE, Jorge, et al. Validity and reliability of Gyko Sport for the measurement of barbell velocity on the bench-press exercise. The Journal of sports medicine and physical fitness, 2019, 59.10: 1651. |
| 3.FORZA, Jacopo; EDMUNDSON, Christopher J. Comparison between Gyko inertial sensor and Chrono jump contact mat for the assessment of Squat Jump, Countermovement Jump and Abalakov Jump in amateur male volleyball players, amateur male rugby players and in high school students. J. Multidiscip. Eng. Sci. Technol, 2019, 6: 9982-9988. |
| 4.SANTOSPAGNUOLO, Adriano, et al. Validity and reliability of the GYKO inertial sensor system for the assessment of the elbow range of motion. The Journal of sports medicine and physical fitness, 2019, 59.9: 1466-1471. |
| 5.HAMERSMA, Dave T., et al. Reliability and validity of the Microgate Gyko for measuring range of motion of the low back. Musculoskeletal Science and Practice, 2020, 45: 102091. |
| 6.JAWORSKI, Janusz, et al. Absolute and Relative Reliability of Several Measures of Static Postural Stability Calculated Using a GYKO Inertial Sensor System. Acta of Bioengineering & Biomechanics, 2020, 22.2. |
| 7.CIGROVSKI, Vjekoslav, et al. Comparison of standard and newer balance tests in recreational alpine skiers and ski novices. Montenegrin journal of sports science and medicine, 2017, 6.1: 49-55. |
| 8.CIGROVSKI, Vjekoslav, et al. RECREATIONAL LEVEL ALPINE SKIING AND BALANCE-A CAUSATIVE RELATIONSHIP?. Acta kinesiologica, 2018, 12.2: 67. |
| 9.POLAT, Sezen Çimen. The Effect of Two Different Take Offs on Split Leap and Stag Leap with Ring Parameters in Rhythmic Gymnastics. Pedagogical Research, 2018, 3.4: 13. |
| 10.ASAI, Tsuyoshi, et al. Changes in step time variability, not changes in step length and width, are associated with lower-trunk sway during dual-task gait in older adults. Human movement science, 2019, 66: 157-163. |
| 11.HATCHETT, Andrew, et al. The Effect of a Curved Non-Motorized treadmill on Running Gait Length, Imbalance and Step Angle. 2018. |
| 12.IOSA, Marco, et al. The brain’s sense of walking: a study on the intertwine between locomotor imagery and internal locomotor models in healthy adults, typically developing children and children with cerebral palsy. Frontiers in human neuroscience, 2014, 8: 859. |
| 13.SPERA, Rocco, et al. Jump and balance test in judo athletes with or without visual impairments. 2019. |
| 14.SVOBODA, Ivan, et al. The difference in some kinematic parameters in shot from distance of 6.25 m and 6.75 m in basketball (cadet category). In: 25. Ljetna škola kineziologa Republike Hrvatske. 2016. |
| 15.PHT, Alex Martino Cinnera; CALTAGIRONE, Carlo. Clinical effects of non-invasive cerebellar magnetic stimulation treatment combined with neuromotor rehabilitation in traumatic brain injury. A single case study. Functional neurology, 2016, 31.2: 117. |
| 16.SIMONI, Laura, et al. Relationship between Lower Limb Kinematics and Upper Trunk Acceleration in Recreational Runners. Journal of Healthcare Engineering, 2020, 2020. |