• The Research Journal of the Costume Culture
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• v.17 no.5
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• pp.866-877
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• 2009

The purpose of this study was to develop the dimension of hand pattern-making for Korean glove. The glove pattern-making has difficult problem in combination of anthropometric and engineering aspects. In addition, existing dimension data are not enough for glove pattern-making. Therefore, to develop the dimension for glove this study comprehensive list of candidate hand data was reviewed and the manufacturers(career over the 15 years) were interviewed on the method of glove. The result of comparing between the structures in hand and existing glove pattern, there draw deduction from follows. Pattern-making for glove need size of hand length, thumb length, index finger length, middle finger length, ring finger length, hand circumference, thumb-ring finger circumference and maximum hand thickness.

• Proceedings of the Korean Society of Broadcast Engineers Conference
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• 2011.07a
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• pp.4-5
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• 2011

수화는 몸 동작 또는 손가락의 움직임을 통하여 상호 커뮤니케이션을 하는 하나의 언어이며, 이 언어의 디지탈 미디어로의 소통을 위해서는 동작을 하나의 의미 있는 단어, 음절로의 표현이 가능해야 한다. 여기서는 몸 동작, 팔 다리의 움직임 보다는 손가락의 움직임에 초점을 맞추어 지문자 인식에 필요한 센서 시스템에 대하여 고찰한다. 우선 연속적인 지문자, 지숫자의 입력을 인식하기 위해서는 각 문자 절음 인식이 가장 중요한 문제가 된다. 절음 위치를 인식하는 것은 현재 입력된 패턴과 다음 패턴을 구분지어 각각 다른 지문자 혹은 지숫자로 인식할 수 있게 하는 기반이 된다. 손가락 구부러짐의 구분 및 인식을 위한 방법의 개발을 위해, 언어별 수화의 특징 분석을 토대로 다양한 적용 가능한 센서를 탐색하고 수화 장갑을 위한 원천기술을 개발, 수화 장갑 프로토타입을 제작하였다.

• Science of Emotion and Sensibility
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• v.24 no.4
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• pp.117-128
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• 2021

In this work, we study smart gloves that can prevent carpal tunnel syndrome when using a mouse. Because the left and right wrist movements are fine, a tensile fabric sensor with a large gauge factor and low hysteresis was required before the study. A universal testing machine was used to calculate each gauge rate on four different fabrics, and the fabric with the least hysteresis was selected. In addition, three attachment methods were analyzed using Arduino to select a method with a large sensor value change. For prototypes made by attaching to the selected fabric, data patterns were analyzed using Arduino. The first method identifies only one sensor (A sensor), and the second identifies two sensors (A and B sensors). When the wrist is bent to the right, tensile fabric sensors are attached to both the left (A sensor) and right (B sensor) sides of the wrist, the A sensor is strained, increasing the △sensor value, and the B sensor is relaxed, decreasing the △sensor value. However, when the wrist was bent to the left, the pattern was analyzed in the opposite direction. Through this study, we examined smart gloves to prevent carpal tunnel syndrome with an algorithm that turns on the LED when the wrist is bent, and based on the results of this study, we will directly use mice on 10 people to identify problems and solve problems when used.