| 1 | "Concept paper WHO Guidelines on Health-Related Rehabilitation (Rehabilitation Guidelines)," World Health Organization. http://who.int/disabilities/care/rehabilitation_guidelines_concept.pdf |
| 2 | Won-Kyung Song, "Trends in rehabilitation robots and their translational research in National Rehabilitation Center, Korea," Biomedical Engineering Letters 6.1. pp 1-9, 2016. DOI |
| 3 | "Rehabilitation Robots, Active Prostheses, and Exoskeletons: Market Shares, Strategies, and Forecasts, Worldwide, 2014 to 2020", Wintergreen Research, 2014. |
| 4 | Song, Won-Kyung, et al. "Reaching contralateral target by chronic hemiparetic stroke survivors using active-assisted/active exercise with 2D/3D visual feedback." 2015 IEEE International Conference on Rehabilitation Robotics (ICORR). IEEE, 2015. |
| 5 | Robotic arm PROFICIO, http://www.robotnik.eu/robotics-arms/proficio/ |
| 6 | http://inhabitat.com/argo-unveils-an-improved-rewalk-suit-that-helps-paraplegics-walk-again/ |
| 7 | http://exoskeletonreport.com/2015/08/ekso-bionics-company-profile/ |
| 8 | http://cdn.phys.org/newman/gfx/news/hires/2016/fdaapprovesi.jpg |
| 9 | http://www.fastcoexist.com/3056096/the-paralyzed-can-walk-again-with-this-super-light-robotic-exoskeleton |
| 10 | Won-Kyung Song, Won-Jin Song, and Ji-Young Jung. "NREX: NRC Robotic Exoskeleton." Ubiquitous Robots and Ambient Intelligence (URAI), 2013 10th International Conference on. IEEE, 2013. |
| 11 | Jun-Yong Song, and Won-Kyung Song. "Development of Robotic Hand Module of NRC Exoskeleton Robot (NREX)." The Journal of Korea Robotics Society 10.3 (2015): 162-170. DOI |
| 12 | Cho, Ki Hun, and Won-Kyung Song. "Robot-Assisted Reach Training for Improving Upper Extremity Function of Chronic Stroke." The Tohoku journal of experimental medicine 237.2 (2015): 149-155. DOI |
| 13 | Brian Byunghyun Kang, et al. "Development of a polymer-based tendon-driven wearable robotic hand." 2016 IEEE International Conference on Robotics and Automation (ICRA). IEEE, 2016. |
| 14 | 김승종,이종민, 환자의 의도 파악과 로봇 재활: 보행재활을 중심으로, 한국로봇학회 학회지, 제13권 2호, pp.32-37, 2016. |
| 15 | Gerdienke B. Prange, Michiel J. Jannink, Catharina G. M. Croothuis-Oudshoorn, Hermie J. Hermens, and Maarten J. IJzerman, "Systematic Review of the Effect of Robot-Aided Therapy on Recovery of the Hemiparetic Arm after Stroke," Journal of Rehabilitation Research and Development, Vol. 43, No. 2, pp. 171-184, March/April 2006. DOI |
| 16 | http://www.gtec.at/Research/Projects/BETTER |
| 17 | Hermano Igo Krebs, Bruce Volpe, and Neville Hogan, "A Working Model of Stroke Recovery from Rehabilitation Robotics Practitioners," Journal of NeuroEngineering and Rehabilitation, Vol. 6, Article 6, February 2009. |
| 18 | Andrew Pennycott, Dario Wyss, Heike Vallery, Verena Klamroth-Marganska, and Robert Riener, "Towards More Effective Robotic Gait Training for Stroke Rehabilitation: a Review," Journal of NeuroEngineering and Rehabilitation, Vol. 9, Article 65, September 2012. |
| 19 | Juan-Manuel Belda-Lois, et al., "Rehabilitation of Gait after Stroke: a Review Towards a Top-down Approach," Journal of NeuroEngineering and Rehabilitation, Vol. 8, Article 66, December 2011. |
| 20 | Future BNCI, A Roadmap for Future Directions in Brain / Neuronal Computer Interaction, 2012. http://bnci-horizon-2020.eu/images/bncih2020/FBNCI_Roadmap.pdf |
| 21 | 송원경, 신준호, 조기훈, 송준용, 정지영, 정순준, 홍미란, 보행 및 상지 재활환경 중심의 인터렉티브 재활로봇에 대한 연구, 국립재활원 재활로봇중개연구 심포지엄, 2015. |
| 22 | Byung-Woo Ko, Hwi-Young Lee, and Won-Kyung Song. "Rhythmic auditory stimulation using a portable smart device: short-term effects on gait in chronic hemiplegic stroke patients." Journal of Physical Therapy Science 28.5 (2016): 1538-1543. DOI |
| 23 | 송원경, 재활로봇 동향과 재활로봇중개연구, 한국로봇학회 학회지, 제13권 2호, pp. 3-9, 2016. |
| 24 | Ability, http://ability-switzerland.com/ |
| 25 | FDA News Release, FDA allows marketing of first wearable, motorized device that helps people with certain spinal cord injuries to walk, http://www.fda.gov/NewsEvents/Newsroom/PressAnnouncements/ucm402970.htm |
| 26 | Chapal Khasnabis, Zafar Mirza, and Malcolm MacLachlan. Opening the GATE to inclusion for people with disabilities. The Lancet 386.10010, 2015, 2229-2230. DOI |
| 27 | FDA approves powered robotic exoskeleton for clinical and personal use, http://www.extremetech.com/extreme/224615-fda-approves-poweredrobotic-exoskeleton-for-clinical-and-personal-use |
| 28 | Ekso Bionics: Now the First and Only FDA-Approved Exoskeleton, http://moneymorning.com/2016/04/08/ekso-bionics-now-the-first-and-only-fdaapproved-exoskeleton/ |
| 29 | Standardisation Newsletter, Standardisation Efforts on Industrial and Service Robots, https://eu-robotics.net/cms/upload/downloads/ISOStandardisation-Newsletter_2016-04.pdf |
| 30 | Priority Assistive Products List (APL), http://www.who.int/phi/implementation/assistive_technology/low_res_english.pdfs |
| 31 | 범재원,남형석,김성완, 재활로봇치료의 적용 및 효과 근거, 한국로봇학회 학회지, 제13권 2호, pp.26-31, 2016. |
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