Comparing a passive-elastic and a powered prosthesis in transtibial amputees
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Chiara Mancinelli | Paolo Bonato | Hugh Herr | Richard M. Greenwald | Peppino Tropea | Benjamin L. Patritti | Rick Casler
[1] Corcoran Pj,et al. Energy expenditure in below-knee amputees: correlation with stump length. , 1974 .
[2] Hugh M. Herr,et al. Powered Ankle--Foot Prosthesis Improves Walking Metabolic Economy , 2009, IEEE Transactions on Robotics.
[3] Michael Lars Palmer,et al. Sagittal plane characterization of normal human ankle function across a range of walking gait speeds , 2002 .
[4] P J Corcoran,et al. Energy expenditure of ambulation in patients with above-knee amputations. , 1975, Archives of physical medicine and rehabilitation.
[5] J. van den Berg,et al. Calf muscle moment, work and efficiency in level walking; role of series elasticity. , 1983, Journal of biomechanics.
[6] S. Naumann,et al. ANALYSIS OF MECHANICAL AND METABOLIC FACTORS IN THE GAIT OF CONGENITAL BELOW KNEE AMPUTEES: A Comparison of the SACH and Seattle Feet , 1992, American journal of physical medicine & rehabilitation.
[7] P. Corcoran,et al. Energy expenditure in below-knee amputees: correlation with stump length. , 1974, Archives of physical medicine and rehabilitation.
[8] N. H. Molen. Energy/speed relation of below-knee amputees walking on a motor-driven treadmill , 1973, Internationale Zeitschrift für angewandte Physiologie einschließlich Arbeitsphysiologie.
[9] A. Tennant,et al. The SIGAM mobility grades: a new population-specific measure for lower limb amputees , 2003, Disability and rehabilitation.
[10] Hugh M. Herr,et al. An ankle-foot emulation system for the study of human walking biomechanics , 2006, Proceedings 2006 IEEE International Conference on Robotics and Automation, 2006. ICRA 2006..
[11] R. Waters,et al. Energy cost of walking of amputees: the influence of level of amputation. , 1976, The Journal of bone and joint surgery. American volume.