http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Assessment of Upper Body Slip on Electrically Adjustable Bed
Inhyuk Moon,Ju-Hwan Bae,Jae-Seong Yoo,Kyoungshin Lee 한국재활복지공학회 2012 한국재활복지공학회 학술대회논문집 Vol.2012 No.11
This paper show the effects on the body slip according to the lengths of seat section and the initial angle of upper leg section. We first develop a sample mattress support platform whose lengths of seat and leg sections are changeable. Then experiments are performed with six subjects. To verify the effects to body slip, each initial condition of the experiments are selected based on the anthropometric data of human body. Then the experimental results are verified by a statistics method. From the experimental results we propose ideal lengths of the mattress support platform and a guideline to care the elderly persons at home.
Inhyuk Moon 동국대학교 정보융합기술원 2010 International Journal of Assistive Robotics and Sy Vol.11 No.2
This paper proposes a human interface based on facial direction estimated by visual observation of the face and electromyography (EMG) signals measured from neck muscles. The visual observation first extracts facial features such as eyes, pupils, eyebrows, and mouth, and then estimates the facial direction angle from the geometry relation of the pupils and the face. In large range of the facial direction angle, EMG signal is applied. Two observations are combined by a linear interpolation method, and the facial direction within the range of ±90 degree from the frontal direction of the face is estimated. In experiments, a camera panning control system is implemented, and the facial direction-based interface is applied to the control system. Experimental results show that the proposed interface is applicable to the human interface system for a serious paralyzed person.
Wearable EMG-based HCI for Assistive Robots
Inhyuk Moon,Jun-Uk Chu,Myung-Joon Lee,Mu-Seong Mun 한국과학기술원 인간친화 복지 로봇 시스템 연구센터 2006 International Journal of Assistive Robotics and Me Vol.7 No.3
Electromyogram (EMG) signal generated by voluntary contraction of muscles is often used in assitstive devices because of its distinct output characteristics compared to other bio-signals. This paper proposes a wearable EMG-based human-computer interface (HCI) for assistive robots such as a wheelchair robot and a myoelectric hand robot. The EMG signals for the HCI are measured from levator scapulae muscles concerned in shoulder elevation gestures and forearm muscles concerned in hand gestures. The experimental results show the proposed wearable EMG-based HCI is feasible for assistive robots.
문인혁 ( Moon Inhyuk ) 한국고령친화건강정책학회 2016 대한고령친화산업학회지 Vol.8 No.2
연구목적 WHO ICF는 사람의 생활기능(functioning)에 따른 건강과 장애를 정의한 대표적인 국제분류이다. 장애인 보조기구의 품목분류에 관한 국제표준 ISO 9999는 ICF의 환경요인의 제1장을 참조하여 2016년에 개정하였고, 이에 맞추어 품목을 대분류, 중분류, 소분류로 재분류하였다. 본 논문은 WHO ICF와 최근 발행된 국제표준 ISO 9999를 기반으로 고령친화용품을 생활기능 관점에서 용어를 정의하고, 품목 분류 방안을 제안하고자 한다. 연구방법 기존의 보조기구 품목분류 및 정부 고시, 고령친화용품 관련 연구, ICF 생활기능분류, ISO 보조기기 분류체계 등을 참조하고 분석한다. 연구결과 건강과 장애의 영역을 체계적으로 정의하고 분류한 WHO의 ICF에 따라 고령친화용품의 정의 및 품목분류를 제안하였다. 결론 이 연구는 ICF의 건강영역의 분류와 이를 적용한 ISO 9999의 분류방법을 참조하여, 고령자의 일상생활에서의 신체기능, 활동, 참여의 생활기능에 따른 고령친화용품의 정의와 분류를 제시하였다. 이 결과는 고령자를 위한 일관된 정책수립에 활용될 수 있을 것이다. Objective : The WHO ICF is a representative of the international classification that classify the health and disability domains based on functioning. In 2016 the ISO 9999 to classify the assistive products for person with disability was revised based on the Chapter 1 of the environment factors of the WHO ICF. This paper proposes a new definition and classification scheme for the elderly-friendly assistive products based on the functioning defined in the WHO ICF and the ISO 9999. Methods : This study refers and analyses previous studies and government notifications on the elderly-friendly assistive products and the classification structures of the WHO ICF and the ISO standard. Results : A new definition and classification of the elderly-friendly assistive products was proposed based on the WHO ICF which classifies and defines the health and disability domains by the functioning. Conclusion : This study proposed a definition and classification of the elderly-friendly assistive products based on body function, activity, and participation of elderly people in activities of daily living based on the WHO ICF and the ISO 9999. This results is applicable to plan a consistent government policy for elderly people.