16649 | スポーツ科学を活用するための計測機器はトレーニングに関わるあらゆる人に貢献します

075-741-8380
お問い合わせはこちら

商品一覧

商品一覧

products2

Enode

エノード

加速度ジャイロセンサー内蔵VBTデバイス

 

VBTデバイス比較資料閲覧用URL

オンラインデモ、サポートのご依頼はこちらから!

公式ホームページはこちらから!

機器の詳細、金額は下記URLからご確認ください!

御見積り依頼はこちらから!

 

参考文献

  1. HELD, Steffen, et al. Valid and Reliable Barbell Velocity Estimation Using an Inertial Measurement Unit. International Journal of Environmental Research and Public Health, 2021, 18.17: 9170.
  2. MENRAD, Thorben; EDELMANN-NUSSER, Jürgen. Validation of Velocity Measuring Devices in Velocity Based Strength Training. International Journal of Computer Science in Sport, 2021, 20.1: 106-118.
  3. FEUERBACHER, Joshua F., et al. Validity and Test-Retest Reliability of the Vmaxpro Sensor for Evaluation of Movement Velocity in the Deep Squat. The Journal of Strength & Conditioning Research, 2022.
  4. FRITSCHI, Raphael; SEILER, Jan; GROSS, Micah. Validity and Effects of Placement of Velocity-Based Training Devices. Sports, 2021, 9.9: 123.
  5. VILLALON-GASCH, Lamberto, et al. Test–Retest and Between–Device Reliability of Vmaxpro IMU at Hip and Ankle for Vertical Jump Measurement. Sensors, 2023, 23.4: 2068.
  6. FEUERBACHER, Joshua F., et al. Validity and test-retest reliability of the Vmaxpro sensor for evaluation of movement velocity in the deep squat. Journal of Strength and Conditioning Research, 2023, 37.1: 35-40.
  7. JIMENEZ-OLMEDO, Jose M., et al. Concurrent Validity of the Inertial Measurement Unit Vmaxpro in Vertical Jump Estimation. Applied Sciences, 2023, 13.2: 959.
  8. SANDAU, Ingo, et al. Concurrent validity of VmaxPro, Kinovea, and Speedograph for the assessment of peak barbell velocity during the bench press: A comparison of technological approaches and historical evolutions. 2023.
  9. MCCARTHY, Benjamin. The Relationship Between Force Plate Derived Eccentric Rate of Force Development and ELEIKO Vmaxpro Derived Eccentric Motion Rate of Force Development. 2022.
  10. HAYNES, Hunter. The Validity of The VmaxPro during Countermovement Jump and Back Squat Performance. 2022.
  11. OLAYA-CUARTERO, Javier, et al. Validity and Reliability of the VmaxPro IMU for back squat exercise in multipower machine. 2022.
  12. JUKIC, Ivan, et al. Implementing a velocity-based approach to resistance training: the reproducibility and sensitivity of different velocity monitoring technologies. Scientific Reports, 2023, 13.1: 7152.
  13. JUKIC, Ivan, et al. Velocity-based approach to resistance training: the reproducibility and sensitivity of commercially available velocity monitoring technologies. 2022.
  14. STÅHL, Elias Olovsson; ÖHRNER, Pontus. Concurrent validity of an inertial sensor for measuring muscle mechanical properties.
  15. ROWELL, Becht. Assessing the Validity of the Perch System During a Deadlift. 2022.
  16. 等慣性阻力熱身對高中男子橄欖球運動員下肢爆發力之影響. 2022. PhD Thesis.
  17. HAUGH, Doug. Impact of Velocity-Based Training and Percentage-Based Training on Power Output. 2021.
  18. FRITSCHI, Raphael. Validität von sechs Messsystemen bei der Bestimmung der Langhantelgeschwindigkeit. 2021.
  19. BERGENDORFF, Linus, et al. Samband mellan kondition och återhämtning vid styrketräning.
  20. BAUR, Magdalena Laura; SPORTWISSENSCHAFT, Masterstudium. EFFEKTE EINES GESCHWINDIGKEITSBASIERTEN VS. PROZENTBASIERTEN KRAFTTRAININGS DER ÜBUNG UNILATERALE BARBELL HIP THRUST AUF DIE MAXIMALKRAFT UND DIE SPRINT-UND SPRUNGLEISTUNG.