Page 254 - Control Theory in Biomedical Engineering

P. 254

230 Control theory in biomedical engineering

Cytowic, R.E., 2002. Synesthesia: A Union of the Senses. MIT press.
Dahlheim, W., 1915. Pressluft Hand f€ur kreigsbesch€adigte Industriearbeiter Z. komprimierte
und fl€ussige Gase. German Patent.
Daniels, C.A., Olsen, C.H., Scher, A.I., McKay, P.L., Niebuhr, D.W., 2019. Severe upper
limb injuries in US military personnel: incidence, risk factor and outcomes. Mil. Med.
185, e146–e153.
Dewald, H.A., Lukyanenko, P., Lambrecht, J.M., Anderson, J.R., Tyler, D.J., Kirsch, R.F.,
Williams, M.R., 2019. Stable, three degree-of-freedom myoelectric prosthetic control
via chronic bipolar intramuscular electrodes: a case study. J. Neuroeng. Rehabil. 16, 147.
Dhillon, G.S., Horch, K.W., 2005. Direct neural sensory feedback and control of a prosthetic
arm. IEEE Trans. Neural Syst. Rehabil. Eng. 13 (4), 468–472.
Di Luzio, F.S., Lauretti, C., Cordella, F., Draicchio, F., Zollo, L., 2020. Visual vs vibrotactile
feedback for posture assessment during upper-limb robot-aided rehabilitation. Appl.
Ergon. 82, 102950.
Dosen, S., Cipriani, C., Kostic, M., Controzzi, M., Carrozza, M., Popovic, D., 2010. Cog-
nitive vision system for control of dexterous prosthetic hands: experimental evaluation.
J. Neuroeng. Rehabil. 7, 42.
Dumanian, G., Potter, B., Mioton, L., Ko, J., Cheesborough, J., Souza, J., Ertl, W.,
Tintle, S., Nanos, G., Valerio, I., Kuiken, T., Apkaian, V., Porter, K., Sumanas, J.,
2019. Targeted muscle reinnervation treats neuroma and phantom pain in major limb
amputees: a randomized clinical trial. Ann. Surg. 270 (2), 238–246.
Eklund, G., 1972. Position sense and state of contraction; the effects of vibration. J. Neurol.
Neurosurg. Psychiatry 35 (5), 606–611.
Fougner, A., Stavdahl, O., Kyberd, P.J., Losier, Y.G., Parker, P.A., 2012. Control of upper
limb prostheses: terminology and proportional myoelectric control-a review. IEEE
Trans. Neural Syst. Rehabil. Eng. 20 (5), 663–677.
Geethanjali, P., 2016. Myoelectric control of prosthetic hands: state-of-art review. Med.
Dev. 27 (9), 247–255.
Geiss, L.S., Li, Y., Hora, I., Albright, A., Rolka, D., Gregg, E.W., 2019. Resurgence of
diabetes-related nontraumatic lower-extremity amputation in the young and middle-
aged adult US population. Diabetes Care 42 (1), 50–54.
Georgarakis, A.M., Sonar, H.A., Rinderknecht, M.D., Lambercy, O., Martin, B.J.,
Klamroth-Marganska, V., Paik, J., Riener, R., Duarte, J.E., 2017. A novel pneumatic
stimulator for the investigation of noise-enhanced proprioception. In: 2017 International
Conference on Rehabilitation Robotics (ICORR). IEEE, pp. 25–30.
Goodwin, G.M., McCloskey, D.I., Matthews, P.B.C., 1972. The contribution of muscle
afferents to keslesthesia shown by vibration induced illusions of movement and by the
effects of paralysing joint afferents. Brain 95 (4), 705–748.
Gopura, R.A.R.C., Bandara, D.S.V., Kiguchi, K., Mann, G.K., 2016. Developments in
hardware systems of active upper-limb exoskeleton robots: a review. Robot. Auton.
Syst. 75, 203–220.
Gretsch, K., Lather, H., Peddada, K., Deeken, C., Wall, L., Goldfarb, C., 2015. Develop-
ment of novel 3D-printed robotic prosthetic for transradial amputees. Prosthetics
Orthot. Int. 40 (3), 400–403.
Hahne, J.M., Biessmann, F., Jiang, N., Rehbaum, H., Farina, D., Meinecke, F.C.,
Muller, K.R., Parra, L.C., 2014. Linear and nonlinear regression techniques for simul-
taneous and proportional control. IEEE Trans. Neural Syst. Rehabil. Eng. 22 (2),
269–279.
Heger, H., Millstein, S., Hunter, G.A., 1985. Electrically powered prostheses for the adult
with an upper limb amputation. J. Bone Joint Surg. 67 (2), 278–281 British volume.
Heo, P., Kim, J., 2014. Power-assistive finger exoskeleton with a palmar opening at the Fin-
gerpad. IEEE Trans. Biomed. Eng. 61 (11), 2688–2697.

249 250 251 252 253 254 255 256 257 258 259