This paper proposes a wearable and motorized crutch control system for the patients using the conventional crutches. The conventional crutches have a few disadvantages such as the inconvenience caused by the direct contact between the ground and the armpit of the patients, and unstable gait patterns. In order to resolve these problems, the motorized crutch is designed as a wearable type on an injured lower limb. In other words, the crutch makes the lower limb to be moved forward while supporting the body weight, protecting the lower limb with frames, and rotating a roller equipped on the bottom of the frames. Also the crutch is controlled using the electromyography and two force sensing resistor (FSR) sensors. The electromyography is used to extract the walking intention from the patient and the FSR sensors to classify the stance and swing phases while walking. As a result, the developed crutch makes the patients walk enabling both hands to be free, as if normal people do.

 Abstract  1. 서 론  2. 정상 보행패턴과 전동 목발의 모방 동작  3. 시스템 구성   3.1 전동 목발 기구부   3.2 근전도 신호처리   3.3 전동 목발 제어  4. 실험 결과  5. 결 론  References

• 윤덕찬(한양대학교 전자시스템공학과 (석사과정)) | Yoon, Dukchan
• 장기호( 한양대학교 전자전기제어계측공학과 (박사과정)) | 장기호
• 최영진( 한양대학교 ERICA 전자시스템공학과 부교수) | 최영진