http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
자이로 센서를 이용한 지면과 수직을 이루는 웨어러블 수액 거치대
김승한(SeungHan, Kim),이다윤(DaYoon, Lee),이소희(SoHee, Lee),한재웅(Jae-Woong, Han),배태수(Tae-Soo, Bae) 대한인간공학회 2021 대한인간공학회 학술대회논문집 Vol.2021 No.11
Fluid is treated as one of the most important medicine in the hospital. In this study, wearable fluid cradle has developed to avoid inconvenience that patients had such as behavioral restrictions, blood reflux and safety issues. The purpose of this study is to keep the cradle to be perpendicular to the ground no matter the pose of patients using gyro sensor. It would successfully remove unnecessary inconveniences that patients should have endured with old cradle.
환도의 자침법: 환도의 주치증에 대한 신경해부학적 접근을 바탕으로
Choi Nayoung,Yoon Juhee,Han Dayoon,Lee Daewon,Chae Hyocheong,Oh Kichang,Woo Jongwon 대한침도의학회 2023 대한침도의학회지 Vol.7 No.2
Objectives: The purpose of this study is to provide anatomical information, as well as ap- plicable needling methods and related physiological effects of GB30. Methods: Through the literature analysis, the location, needling method, clinical effect of GB30 were extracted. Based on this information, we investigated the stimulable structures and their therapeutic effects related with GB30 from literature. Results: Connecting the anatomical structures that can be stimulated by needling at GB30 with the clinical effects of GB30, the following can be observed: the inferior gluteal nerve and gluteus maximus, sciatic nerve, piriformis muscle, and gemelli-obturator com- plex, were associated with symptoms in the waist and lower extremity regions. The quadra- tus femoris muscle, pudendal nerve, and posterior femoral cutaneous nerve were related to sacroiliac pain. Conclusion: This study has provided insights into the depth and direction of needling at GB30, along with the anatomical structures that can be stimulated as a result, and their corresponding therapeutic effects.
Deformable Ionic Polymer Artificial Mechanotransducer with an Interpenetrating Nanofibrillar Network
Kim, So Young,Kim, Yongchan,Cho, Changhyeon,Choi, Hanbin,Park, Han Wool,Lee, Dayoon,Heo, Eunah,Park, Sangsik,Lee, Hojin,Kim, Do Hwan American Chemical Society 2019 ACS APPLIED MATERIALS & INTERFACES Vol.11 No.32
<P>We demonstrate an ionic polymer artificial mechanotransducer (i-PAM) capable of simultaneously yielding an efficient wide bandwidth and a blocking force to maximize human tactile recognition in soft tactile feedback. The unique methodology in the i-PAM relies on an ionic interpenetrating nanofibrillar network that is formed at the interface of (i) an ionic thermoplastic polyurethane nanofibrillar matrix with an ionic liquid of 1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide ([EMIM]<SUP>+</SUP>[TFSI]<SUP>−</SUP>) and (ii) ionic poly(3,4-ethylenedioxythiophene):poly(styrenesulfonic acid) (PEDOT:PSS) conducting polymer electrodes with dimethyl sulfoxide and [EMIM]<SUP>+</SUP>[TFSI]<SUP>−</SUP> as additives. The i-PAM-based actuator with the ionic PEDOT:PSS exhibits a stable operation up to 200 Hz at low voltage as well as a blocking force of 0.4 mN, which can be potentially adapted to soft tactile feedback. Furthermore, on the basis of this fast i-PAM, we realized alphabet tactile rendering by using a 3 × 3 i-PAM array stimulated by a dc input of 2 V. We believe that our proposed approach can provide a rational guide to the human-machine soft haptic interface.</P> [FIG OMISSION]</BR>