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보조사 ‘-요’의 음장 변화에 따른 청자의 지각 차이 비교
윤은경(Yoon Eunkyung),김슬기(Kim Sulki) 한국음성학회 2011 말소리와 음성과학 Vol.3 No.4
This paper investigates whether listeners perceive a different level of politeness when the duration of the Korean sentence-final auxiliary particle ‘-yo’ is varied. A total of 10 Korean sentences were manipulated by lengthening and shortening ‘-yo’ by 10%, 20%, and 30%. The participants included native Korean speakers and Chinese and Japanese learners of Korean (n=10, respectively). They were asked to rate the level of politeness of the stimuli on a 9-point scale. It was found that Korean listeners perceived decreased politeness as the duration of ‘-yo’ was shortened and increased politeness as it was lengthened. However, Chinese and Japanese listeners did not perceive a different level of politeness from the manipulated sentences. This finding suggests that it is important to teach L2 speakers that the duration of the auxiliary particle ‘-yo’ plays a role in Korean listeners’ perception of politeness.
유영재(YoungJae Yoo),권은혜(EunHae Kwon),김슬기(SulKi Kim),김희영(HeeYoung Kim),이현정(HyunJeong Lee),최정훈(JeongHoon Choi),최현주(HyunJu Choi),황영진(YoungJin Hwang),임영희(YoungHee Lim) 고려대학교 보건과학연구소 2006 보건과학논집 Vol.32 No.2
High resolution melt curve analysis(HRM) is a simple post-PCR technique which can be used for mutation scanning and genotyping. We identified Salmonella enterica Dublin and S. enterica Naestved which have single base difference between them in fliC gene by HRM. The 102-base pair amplicons expressed different melting temperatures. Using the method, we can identify serotypes even which have a base variant without post-PCR handling, resulting in short analysis time.
고분자 구동체를 이용한 손가락 외골격기구의 설계 및 동력학적 모델 개발
정광훈(Gwang Hun Jeong),김윤정(Yoon Jeong Kim),윤벼리(Byeri Yoon),왕혁식(Hyuck Sik Wang),송대석(Dae Seok Song),김슬기(Sulki Kim),이계한(Kyehan Rhee),조재영(Jae Young Jho),김동민(Dong Min Kim),이수진(Soo-Jin Lee) Korean Society for Precision Engineering 2012 한국정밀공학회지 Vol.29 No.7
This paper presents the design and dynamic model of the finger exoskeleton actuated by Ionic Polymer Metal Composites (IPMC) to assist a tip pinch task. Although this exoskeleton will be developed to assist 3 degree-of-freedom motion of each finger, it has been currently made to perform the tip pinch task using 1 degree-of-freedom mechanism as the first step. The six layers of IPMC were stacked in parallel to increase the low actuation force of IPMC. In addition, the finger dummy was manufactured to evaluate the performance of the finger exoskeleton. The pinch task experiments, which were performed on the finger dummy with the developed exoskeleton, showed that the pinch force close to the desired level was obtained. Moreover, the dynamic model of the exoskeleton and finger dummy was developed in order to perform the various analyses for the improvement of the exoskeleton.