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논문 기본정보
비접촉식 심장활동 모니터링 기능 의복형 웨어러블 시스템의 모듈 효과 탐색
논문 개요
| 기관명 | NDSL |
|---|---|
| 저널명 | 한국의류학회지 = Journal of the Korean Society of Clothing and Textiles |
| ISSN | 1225-1151,2234-0793 |
| ISBN |
논문저자 및 소속기관 정보
| 저자(한글) | 구혜란,이영재,지선옥,이승표,김경남,강승진,이정환,이주현 |
|---|---|
| 저자(영문) | |
| 소속기관 | |
| 소속기관(영문) | |
| 출판인 | |
| 간행물 번호 | |
| 발행연도 | 2015-01-01 |
| 초록 | Various forms of wearable bio-signal monitoring systems have been developed recently. Acquisition of stable bio-signal data for health care purposes needs to be unconscious and continuous without hindrance to the users' daily activities. The garment type is a suitable form of a wearable bio-signal monitoring system; however, motion artifacts caused by body movement degrade the signal quality during the measurement of bio-signals. It is crucial to stabilize the electrode position to reduce motion artifacts generated when in motion. The problems with motion artifacts remain unresolved despite their significant effect on bio-signal monitoring. This research creates a foundation for the design of garment-type wearable systems for everyday use by finding a method to reduce motion artifacts through modular design. Two distinct garment-type wearable systems (tee-shirt with a motion artifact-reducing module (MARM) and tee-shirt without a MARM) were designed to compare the effects of modular design on the measurement of heart activity in terms of electrode position displacement, signal quality index value, and morphological quality. The tee-shirt with MARM showed superior properties and yielded higher quality signals than the tee-shirt without MARM. In addition, the tee-shirt with MARM showed a better repeatability of the heart activity signals. Therefore, a garment design with MARM is an efficient way to acquire stable bio-signals while in motion. |
| 원문URL | http://click.ndsl.kr/servlet/OpenAPIDetailView?keyValue=03553784&target=NART&cn=JAKO201521839156312 |
| 첨부파일 |
추가정보
| 과학기술표준분류 | |
|---|---|
| ICT 기술분류 | |
| DDC 분류 | |
| 주제어 (키워드) | 심장박동 센싱 의류 디자인,웨어러블 테크놀러지,직물 전극,비접촉식 센싱 방식,동잡음,Heart activity sensing clothing design,Wearable technology,Textile electrode,Non-contact type sensing method,Motion artifact |