| タイトル |
収録刊行物 |
| Association of step width with accelerated sprinting performance and ground reaction force. |
International Journal of Sports Medicine 38: 534–540, 2017. |
| 三段跳における助走歩数が跳躍パフォーマンスに及ぼす影響:単一事例による実験的検討. |
スポーツパフォーマンス研究 9: 512-527, 2017 |
| Age-related differences in spatiotemporal variables and ground reaction forces during sprinting in boys. |
Pediatric Exercise Science 30(3):335–344, 2018 |
| Association of sprint performance with ground reaction forces during acceleration and maximal speed phases in a single sprint. |
Journal of Applied Biomechanics 34: 104–110, 2018 |
| Sensor insole for measuring temporal variables and vertical force during sprinting. Proceedings of the Institution of Mechanical Engineers, Part P |
Journal of Sports Engineering and Technology 232(4): 369–374, 2018 |
| Spatiotemporal and kinetic determinants of sprint acceleration performance in soccer players. |
Sports 6: 169 (pp1-7), 2018 |
| Step-to-step spatiotemporal variables and ground reaction forces of intra-individual fastest sprinting in a single session. |
Journal of Sports Sciences 36(12): 1392–1401, 2018 |
| Vertical impulse as a determinant of combination of step length and frequency during sprinting. |
International Journal of Sports Medicine 39(4): 282–290, 2018 |
| Kinetic demands of sprinting shift across the acceleration phase: novel analysis of entire force waveforms. |
Scandinavian Journal of Medicine and Science in Sports 28: 1784–1792, 2018 |
| How sprinters accelerate beyond the velocity plateau of soccer players: waveform analysis of ground reaction forces. |
Scandinavian Journal of Medicine and Science in Sports 28: 2527–2535, 2018 |
| Understanding the track and field sprint start through a functional analysis of the external force features which contribute to higher levels of block phase performance. |
Journal of Sports Sciences 37: 560–567, 2018 |
| 加速疾走パフォーマンスに関する近年の知見 : 長走路フォースプレートシステムを利用した研究を中心として. |
トレーニング科学30(3), 151-159, 2018 |
| Age-related differences in kinematics and kinetics of sprinting in young female. |
Scandinavian Journal of Medicine and Science in Sports 29: 800–807, 2019 |
| Influence of the intention to lean the body forward on kinematics and kinetics of sprinting for active adults. |
Sports 7: 133 (pp1–8), 2019 |
| Kinematic and kinetic differences in block and split-stance standing starts during 30 m sprint-running. |
European Journal of Sport Science 19: 1024–1031, 2019 |
| External mechanical work done during the acceleration stage of maximal sprint running and its association with running performance. |
Journal of Experimental Biology 222: jeb189258: 1–8, 2019 |
| A simple method for computing sprint acceleration kinetics from running velocity data: replication study with improved design. |
Journal of Biomechanics 94: 82–87, 2019 |
| The location of the center of pressure on the starting block is related to sprint start performance. |
Frontiers in Sports and Active Living 1: 20: 1–6, 2019 |
| Inertial measurement unit based hip flexion test as an indicator of sprint performance. |
Journal of Sports Sciences 38(1): 53–61, 2020 |
| Thigh positioned wearable resistance affects step frequency not step length during 50 m sprint-running |
European Journal of Sport Science, in press |
| Force-velocity profile changes with forearm wearable resistance during standing start sprinting. |
European Journal of Sport Science, in press |
| Are peak ground reaction forces related to better sprint acceleration performance? |
Sports Biomechanics, in press |
| Calculation of the centre of pressure on the athletic starting block. |
Sports Biomechanics, in press |
| Ground reaction force across the transition during sprint acceleration. |
Scandinavian Journal of Medicine and Science in Sports, in press |
