References
- Ali, N., Robertson, D. G. E., & Rouhi, G. (2014). Sagittal plane body kinematics and kinetics during single-leg landing from increasing vertical heights and horizontal distances: Implications for risk of non-contact ACL injury. The Knee, 21, 38–46.
- Bartlett, R., Wheat, J., & Robins, M. (2007). Is movement variability important for sports biomechanists? Sports Biomechanics, 6(2), 224–243.
- Barrett, R., Noordegraaf, M. V., & Morrison, S. (2008). Gender differences in the variability of lower extremity kinematics during treadmill locomotion. Journal of Motor Behavior, 40(1), 62–70.
- Bates, B. T. (1996). Single-subject methodology: An alternative approach. Medicine and Science in Sports and Exercise, 28(5), 628–631.
- Brown, C., Bowser, B., & Simpson, K. J. (2012). Movement variability during single leg jump landings in individuals with and without chronic ankle instability. Clinical Biomechanics, 27, 52–63.
- Devita, P., & Skelly, W. A. (1992). Effect of landing stiffness on joint kinetics and energetics in the lower extremity. Medicine & Science in Sports & Exercise, 24(1), 108–115.
- DiBerardino, LA. III, Polk, J. D., Rosengren, K. S., Spencer-Smith, J. B., & Hsiao-Wecksler, E. (2010). Quantifying complexity and variability in phase portraits of gait. Clinical Biomechanics, 25, 552–556.
- Donohue, M. R., Ellis, S. M., Heinbaugh, E. M., Stephenson, M. L., Zhu, Q., & Dai, B. (2015). Differences and correlations in knee and hip mechanics during single-leg landing, single-leg squat, double-leg landing, and double-leg squat tasks. Research in Sports Medicine, 23, 394–411.
- Dufek, J. S., Bates, B. T., Stergiou, N., & James, C. R. (1995). Interactive effects between group and single-subject response patterns. Human Movement Science, 14, 301–323.
- Ford, K. R., Shapiro, R., Myer, G. D., van den Bogert, A. J., & Hewett, T. E. (2010). Longitudinal sex differences during landing in knee abduction in young athletes. Medicine & Science in Sports & Exercise, 42(10), 1923–1931.
- Gehring, D., Melnyk, M., & Gollhofer, A. (2009). Gender and fatigue have influence on knee joint control strategies during landing. Clinical Biomechanics, 24, 82–87.
- Hamill, J., van Emmerik, R. E. A., Heiderscheit, B. C., & Li, L. (1999). A dynamical systems approach to lower extremity running injuries. Clinical Biomechanics, 14, 297–308.
- James, C. R., & Bates, B. T. (1997). Experimental and statistical design issues in human movement research. Measurement in Physical Education and Exercise Science, 1(1), 55–69.
- James, C. R., Bates, B. T., & Dufek, J. S. (2003). Classification and comparison of biomechanical response strategies for accommodating landing impact. Journal of Applied Biomechanics, 19, 106–118.
- James, C. R., Dufek, J. S., & Bates, B. T. (2000). Effects of injury proneness and task difficulty on joint kinetic variability. Medicine & Science in Sports & Exercise, 32(11), 1833–1844.
- Kristianslund, E., Krosshaug, T., & van den Bogert, A. J. (2012). Effect of low pass filtering on joint moments from inverse dynamics: Implications for injury prevention. Journal of Biomechanics, 45, 666–671.
- Li, Z.-M. (2006). Functional degrees of freedom. Motor Control, 10, 301–310.
- McNitt-Gray, J. L. (1993). Kinetics of the lower extremities during drop landings from three heights. Journal of Biomechanics, 26(9), 1037–1046.
- Mills, C., Pain, M. T. G., & Yeadon, M. R. (2009). Reducing ground reaction forces in gymnastics’ landings may increase internal loading. Journal of Biomechanics, 42, 671–678.
- O’Dwyer, N., Smith, R., Halaki, M., & Rattanaprasert, U. (2009). Independent assessment of pattern and offset variability of time series waveforms. Gait & Posture, 29, 285–289.
- Scholes, C. J., McDonald, M. D., & Anthony, W. P. (2012). Single-subject analysis reveals variation in knee mechanics during step landing. Journal of Biomechanics, 45, 2074–2078.
- Slobounov, S., Yukelson, D., & O’Brien, R. (1997). Self-efficacy and movement variability of olympic-level springboard divers. Journal of Applied Sport Psychology, 9, 171–190.
- Stergiou, N., Harbourne, R. T., & Cavanaugh, J. T. (2006). Optimal movement variability: A new theoretical perspective for neurologic physical therapy. Journal of Neurologic Physical Therapy, 30(3), 120–129.
- Torry, M. R., Myers, C., Shelburne, K. B., Peterson, D., Giphart, J. E., Pennington, W. W., … Steadman, J. R. (2011). Relationship of knee shear force and extensor moment on knee translations in females performing drop landings: A biplane fluoroscopy study. Clinical Biomechanics, 26, 1019–1024.
- Weltin, E., Mornieux, G., & Gollhofer, A. (2015). Influence of gender on trunk and lower limb biomechanics during lateral movements. Research in Sports Medicine, 23, 265–277.
- Yeow, C. H., Lee, P. V. S., & Goh, J. C. H. (2009). Effect of landing height on frontal plane kinematics, kinetics and energy dissipation at lower extremity joints. Journal of Biomechanics, 42, 1967–1973.
- Yeow, C. H., Lee, P. V. S., & Goh, J. C. H. (2010). Sagittal knee joint kinematics and energetics in response to different landing heights and techniques. The Knee, 17, 127–131.
- Zhang, S., Bates, B. T., & Dufek, J. S. (2000). Contributions of lower extremity joints to energy dissipation during landings. Medicine & Science in Sports & Exercise, 32(4), 812–819.