Page 287 - Handbook of Biomechatronics

P. 287

280 Georgios A. Bertos and Evangelos G. Papadopoulos

RSA and radiographic evaluation of migration and bone remodeling in 55 cases. Acta
Orthop. 83 (2), 121–128. https://doi.org/10.3109/17453674.2012.678799.
Perry, J., 1992. Gait Analysis Normal and Pathological Function. SLACK, New Jersey.
Perry, J., Boyd, L.A., Rao, S.S., Mulroy, S.J., 1997. Prosthetic weight acceptance mechanics
in transtibial amputees wearing the single Axis, Seattle lite, and flex foot. IEEE Trans.
Rehabil. Eng. 5 (5), 283–289.
Pitkin, M.R., 1995. Mechanical outcomes of a rolling-joint prosthetic foot and its perfor-
mance in the dorsiflexion phase of transtibial amputee gait. J. Prosthet. Orthot. 7 (4),
114–123.
Quesada, P.M., Rash, G.S., 1998. Simulation of walking without stance phase knee flexion.
Gait Posture 7 (2), 151–152.
Rouse, E.J., Villagaray-Carski, N.C., Emerson, R.W., Herr, H.M., 2015. Design and testing
of a bionic dancing prosthesis. PLoS One. 10(8). e0135148. https://doi.org/10.1371/
journal.pone.0135148.
Sam, M., Hansen, A.H., Childress, D.S., 2000. Mechanical characterization of prosthetic feet
using a prosthetic foot loading apparatus. In: Enderle, J.D. (Ed.), Proceedings of the 22nd
Annual International Conference of the IEEE Engineering in Medicine and Biology
Society, vols, 1–4 (vol. 22). Ieee, New York, pp. 1968–1971.
Sam, M., Hansen, A.H., Childress, D.S., 2004. Characterisation of prosthetic feet used in
low-income countries. Prosthetics Orthot. Int. 28 (2), 132–140.
Saunders, J.B., Inman, V.T., Eberhart, H.D., 1953. The major determinants in normal and
pathological gait. J. Bone Joint Surg. 35 (A3), 543–558.
Siegler, S., Seliktar, R., Hyman, W., 1982. Simulation of human gait with the aid of a simple
mechanical model. J. Biomech. 15 (6), 415–425.
Simon, A.M., Spanias, J.A., Ingraham, K.A., Hargrove, L.J., 2016. Delaying ambulation
mode transitions in a powered knee-ankle prosthesis. Conf. Proc. IEEE Eng. Med. Biol.
Soc. 2016, 5079–5082. https://doi.org/10.1109/EMBC.2016.7591869.
Simon, A.M., Ingraham, K.A., Spanias, J.A., Young, A.J., Finucane, S.B., Halsne, E.G.,
Hargrove, L.J., 2017. Delaying ambulation mode transition decisions improves accuracy
of a flexible control system for powered knee-ankle prosthesis. IEEE Trans. Neural Syst.
Rehabil. Eng. 25 (8), 1164–1171. https://doi.org/10.1109/TNSRE.2016.2613020.
Smyrli, A., Bertos, G., Papadopoulos, E., 2018. Efficient stabilization of zero-slope walking
for bipedal robots following their passive fixed-point trajectories. In: Proc. IEEE Inter-
national Conference on Robotics and Automation (ICRA ’18), Brisbane, Australia, May
21–25, pp. 5733–5738.
Snyder, R.D., Powers, C.M., Fontaine, C., Perry, J., 1995. The effect of five prosthetic feet
on the gait and loading of the sound limb in dysvascular below-knee amputees.
J. Rehabil. Res. Dev. 32 (4), 309–315.
Spanias, J.A., Perreault, E.J., Hargrove, L.J., 2014. A strategy for labeling data for the neural
adaptation of a powered lower limb prosthesis. Conf. Proc. IEEE Eng. Med. Biol. Soc.
2014, 3090–3093. https://doi.org/10.1109/EMBC.2014.6944276.
Spanias, J.A., Perreault, E.J., Hargrove, L.J., 2016a. Detection of and compensation for EMG
disturbances for powered lower limb prosthesis control. IEEE Trans. Neural Syst.
Rehabil. Eng. 24 (2), 226–234. https://doi.org/10.1109/TNSRE.2015.2413393.
Spanias, J.A., Simon, A.M., Perreault, E.J., Hargrove, L.J., 2016b. Preliminary results for an
adaptive pattern recognition system for novel users using a powered lower limb prosthe-
sis. Conf. Proc. IEEE Eng. Med. Biol. Soc. 2016, 5083–5086. https://doi.org/10.1109/
EMBC.2016.7591870.
Spanias, J.A., Simon, A.M., Hargrove, L.J., 2017. Across-user adaptation for a powered
lower limb prosthesis. IEEE Int. Conf. Rehabil. Robot. 2017, 1580–1583. https://
doi.org/10.1109/ICORR.2017.8009473.

282 283 284 285 286 287 288 289 290 291 292