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http://dx.doi.org/10.14695/KJSOS.2021.24.4.69

EMS Ventilation Belt Using Stretch Sensor Effect on Respiratory Activation  

Kim, Dae-Yeon (숭실대학교 스마트웨어러블공학과)
Park, Jin-hee (숭실대학교 스마트웨어러블공학과)
Kim, Joo-yong (숭실대학교 유기신소재파이버공학과)
Publication Information
Science of Emotion and Sensibility / v.24, no.4, 2021 , pp. 69-78 More about this Journal
Abstract
The development of smart healthcare wearables for health is accelerating. Among them, many wearable products using EMS electrical stimulation, which is one of the active research fields, have been released. However, the EMS wearable, which has been studied or released, is released in a comprehensive full-body suit that does not focus on muscle segmentation or a belt that covers the entire abdomen. Therefore, this study intends to use two breathing methods by applying an EMS pattern that subdivides specific muscles and attach a stretch sensor that can measure breathing to the abdominal pressure belt. The measurement method was conducted by inhaling and exhaling, and the subjects were 10 men in their 20s with healthy bodies. As a result of this study, the sensor's sensitivity was 5 and 3 mm, and the basic sensor in both thoracic and abdominal breathings and the EMS abdominal pressure belt showed improved respiration activation after applying electrical stimulation before and after application. It is concluded that, because of the two patterns produced based on the physical function, the difference in respiration activation effect and sensitivity between sensors could be confirmed with three sensors rather than not applying electrical stimulation suitable for the respiration method. Based on the results of this study, a follow-up study aims to develop breathing smart clothing that can be monitored in real time in clothing-type wearable products that incorporate EMS patterns and stretch sensors.
Keywords
Thoracic Respiration; Abdominal Respiration; Ems/Electronic Muscle Simulation; Abdominal Pressure Belt; Respiration Activation; Muscle Pattern;
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