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1. Kluding, Patricia M., Dunning, Kari, O’Dell, Michael W., Wu, Samuel S., Ginosian, Jivan, Feld, Jody, McBride, Keith. Foot Drop Stimulation Versus Ankle Foot Orthosis After Stroke : 30-Week Outcomes. Stroke, vol.44, no.6, 1660-1669.

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2. Dunning, Kari, O’Dell, Michael W., Kluding, Patricia, McBride, Keith. Peroneal Stimulation for Foot Drop After Stroke: A Systematic Review. American journal of physical medicine & rehabilitation, vol.94, no.8, 649-664.

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3. 10.1046/j.1525­1403.2001.00077.x 

   

4. Sheffler, L.R., Taylor, P.N., Gunzler, D.D., Buurke, J.H., IJzerman, M.J., Chae, J.. Randomized Controlled Trial of Surface Peroneal Nerve Stimulation for Motor Relearning in Lower Limb Hemiparesis. Archives of physical medicine and rehabilitation, vol.94, no.6, 1007-1014.

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5. 10.1155/2012/523564 Morone G. Fusco A. Di Capua P. et al. : ‘Walking training with foot drop stimulator controlled by a tilt sensor to improve walking outcomes: a randomized controlled pilot study in patients with stroke in subacute phase’ Stroke Res. Treat. 2012 2012:523564 

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6. 10.1109/NER.2013.6695938 Watanabe T. Endo S. Murakami K. et al. : ‘Movement change induced by voluntary effort with low stimulation intensity FES­assisted dorsiflexion: a case study with a hemiplegic subject’.Proc. Sixth Int. IEEE EMBS Conf. on Neural Engineering 2013 pp.327-330 

   

7. Melo, P.L., Silva, M.T., Martins, J.M., Newman, D.J.. Technical developments of functional electrical stimulation to correct drop foot: Sensing, actuation and control strategies. Clinical biomechanics, vol.30, no.2, 101-113.

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8. Rueterbories, J., Spaich, E.G., Larsen, B., Andersen, O.K.. Methods for gait event detection and analysis in ambulatory systems. Medical engineering & physics, vol.32, no.6, 545-552.

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9. Mariani, B., Rouhani, H., Crevoisier, X., Aminian, K.. Quantitative estimation of foot-flat and stance phase of gait using foot-worn inertial sensors. Gait & posture, vol.37, no.2, 229-234.

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10. Chia Bejarano, Noelia, Ambrosini, Emilia, Pedrocchi, Alessandra, Ferrigno, Giancarlo, Monticone, Marco, Ferrante, Simona. A Novel Adaptive, Real-Time Algorithm to Detect Gait Events From Wearable Sensors. IEEE transactions on neural systems and rehabilitation engineering : a publication of the IEEE Engineering in Medicine and Biology Society, vol.23, no.3, 413-422.

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11. 10.1109/IEMBS.2011.6091393 Miura N. Watanabe T. Akasaka K. et al. : ‘A clinical trial of a prototype of wireless surface FES rehabilitation system in foot drop correction’.Proc. 33rd IEEE Engineering in Medicine and Biology Society 2011 pp.5461-5464 

    

12. Sabatini, A.M., Martelloni, C., Scapellato, S., Cavallo, F.. Assessment of walking features from foot inertial sensing. IEEE transactions on bio-medical engineering, vol.52, no.3, 486-494.

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13. Lee, Young-Hee, Yong, Sang Yeol, Kim, Sung Hoon, Kim, Ji Hyun, Shinn, Jong Mock, Kim, Youngho, Kim, Seunghyeon, Hwang, Seonhong. Functional Electrical Stimulation to Ankle Dorsiflexor and Plantarflexor Using Single Foot Switch in Patients With Hemiplegia From Hemorrhagic Stroke. Annals of rehabilitation medicine, vol.38, no.3, 310-316.

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14. 10.1109/IEMBS.2011.6091395 Watanabe T. Saito H.: ‘Tests of wireless wearable sensor system in joint angle measurement of lower limbs’.Proc. 33rd Annual Int. Conf. on IEEE EMBS 2011 pp.5469-5472 

    

15. Watanabe, Takashi, Saito, Hiroki, Koike, Eri, Nitta, Kazuki. A Preliminary Test of Measurement of Joint Angles and Stride Length with Wireless Inertial Sensors for Wearable Gait Evaluation System. Computational intelligence and neuroscience, vol.2011, 975193-.

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16. Perry, Jacquelin, k Thorofare, Slac, Davids, Jon R.. Gait Analysis : Normal and Pathological Function. Journal of pediatric orthopedics, vol.12, no.6, 815-.

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