• Title/Summary/Keyword: 손의 중심

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Real-Time Hand Gesture Tracking & Recognition (실시간 핸드 제스처 추적 및 인식)

  • Ha, Jeong-Yo;Kim, Gye-Young;Choi, Hyung-Il
    • Proceedings of the Korean Society of Computer Information Conference
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    • 2010.07a
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    • pp.141-144
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    • 2010
  • 본 논문에서는 컴퓨터 비전에 기반을 둔 방법으로 실시간으로 사람의 손의 모양을 인식하는 알고리즘을 제안한다. 기본적인 전처리 과정과 피부 값의 검출을 통해서 사용자의 피부색상을 검출한 후 팔 영역과 얼굴영역을 제거하고, 손 영역만 검출한 뒤 손의 무게중심을 구한다. 그 후에 손의 궤적을 추적하기 위해 칼만필터를 이용하였으며, 손의 모양을 인식하기 위한 방법으로 Hidden Markov Model을 이용하여 사용자의 손 모양 6가지를 학습한 후 인식하였다. 실험을 통하여 제안한 방법의 효과를 입증하였다.

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Cursor Control by the Finger Motion Using Circular Pattern Vector Algorithm (원형 패턴 벡터 알고리즘을 이용한 손가락 이동에 의한 커서제어)

  • 정향영;신일식;손영선
    • Proceedings of the Korean Institute of Intelligent Systems Conference
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    • 2001.12a
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    • pp.173-176
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    • 2001
  • 본 논문은 영상 해석 알고리즘의 하나인 원형 패턴 벡터 알고리즘을 이용하여 손가락으로 커서를 제어하는 시스템을 구현하였다. 이 알고리즘을 적용하기 위하여 영상에서 손 영역에만 해당하는 최대 원을 여러 개 그린 후 가장 큰 원의 중심점을 무게 중심점으로 사용하였으며, 무게 중심점에서 손의 외곽까지의 거리를 구하여 가리키는 손가락을 찾도록 하였다. 화면상의 커서의 수평 방향은 가리키는 손가락 방향을 이용하여 평면 좌표로 해석하여 제어하였고, 수직 방향은 모니터 중앙 상단에 한대의 카메라를 사용하였기 때문에 손가락 길이를 이용하여 불연속적으로 상-중-하의 세 영역으로 제어하였다. 수직 방향의 커서이동이 불연속적이기 때문에, 구축한 인터페이스 화면의 범위를 축소한 후 축소된 범위를 전체 화면으로 확대해 나감으로써 사용자가 원하는 목표지점으로 커서를 이동시킬 수 있다.

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Finger Recognition using Distance Graph (거리 그래프를 이용한 손가락 인식)

  • Song, Ji-woo;Heo, Hoon;Oh, Jeong-su
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2016.05a
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    • pp.819-822
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    • 2016
  • This paper proposes an algorithm recognizing finger using a distance graph of a detected finger's contour in a depth image. The distance graph shows angles and Euclidean distances between the center of palm and the hand contour as x and y axis respectively. We can obtain hand gestures from the graph using the fact that the graph has local maximum at the positions of finger tips. After we find the center of mass of the wrist using the fingers is thinner than the palm, we make its angle the orienting angle $0^{\circ}$. The simulation results show that the proposed algorithm can detect hand gestures well regardless of the hand direction.

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Tracking Algorithm For Golf Swing Using the Information of Pixels and Movements (화소 및 이동 정보를 이용한 골프 스윙 궤도 추적 알고리즘)

  • Lee, Hong, Ro;Hwang, Chi-Jung
    • The KIPS Transactions:PartB
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    • v.12B no.5 s.101
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    • pp.561-566
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    • 2005
  • This paper presents a visual tracking algorithm for the golf swing motion analysis by using the information of the pixels of video frames and movement of the golf club to solve the problem fixed center point in model based tracking method. The model based tracking method use the polynomial function for trajectory displaying of upswing and downswing. Therefore it is under the hypothesis of the no movement of the center of gravity so this method is not for the amateurs. we proposed method using the information of pixel and movement, we first detected the motion by using the information of pixel in the frames in golf swing motion. Then we extracted the club head and hand by a properties of club shaft that consist of the parallel line and the moved location of club in up-swing and down-swing. In addition, we can extract the center point of user by tracking center point of the line between center of head and both foots. And we made an experiment with data that movement of center point is big. Finally, we can track the real trajectory of club head, hand and center point by using proposed tracking algorithm.

Hand Rehabilitation System Using a Depth Sensor (깊이 센서를 이용한 손 재활 시스템)

  • Park, Hyeran;Lee, Dongwoo;Kim, Manbae
    • Proceedings of the Korean Society of Broadcast Engineers Conference
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    • 2011.11a
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    • pp.292-294
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    • 2011
  • 별개의 컨트롤러 없이 사용자의 신체만을 이용하여 다양한 게임과 엔터테인먼트를 경험할 수 있는 키넥트에 대한 관심이 높아지고 있다. 최근 재활 치료를 필요로 하는 환자가 늘어남에 따라 본 논문에서는 운동 장애를 가진 환자들이나 노인들이 고가의 장비 또는 다른 사람의 도움 없이 키넥트와 컴퓨터만을 이용하여 손 재활 운동을 할 수 있도록 하는 것을 목적으로 한다. 키넥트 영상으로부터 손 영역을 찾고, 영역의 윤곽선을 추출 한다. 이 때 손가락 중심선을 찾아 손가락과 손바닥 영역을 구분해 준다. 손가락의 개수를 확인하기 위해서 손의 중심점과 끝 점을 찾은 후 두 점을 연결함으로써 손가락의 개수를 확인할 수 있고, 실시간으로 손의 움직임을 감지하도록 한다.

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Hand Region Detection and hand shape classification using Hu moment and Back Projection (역 투영과 휴 모멘트를 이용한 손영역 검출 및 모양 분류)

  • Shin, Jae-Sun;Jang, Dae-Sik
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2011.10a
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    • pp.911-914
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    • 2011
  • Detecting Hand Region is essencial technology to providing User based interface and many research has been continue. In this paper will propose Hand Region Detection method by using HSV space based on Back Projection and Hand Shape Recognition using Hu Moment. By using Back Projection, I updated reliability on Hand Region Detection by Back Projection method and, Confirmed Hand Shape could be recognized through Hu moment.

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Hand Motion Recognition Algorithm Using Skin Color and Center of Gravity Profile (피부색과 무게중심 프로필을 이용한 손동작 인식 알고리즘)

  • Park, Youngmin
    • The Journal of the Convergence on Culture Technology
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    • v.7 no.2
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    • pp.411-417
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    • 2021
  • The field that studies human-computer interaction is called HCI (Human-computer interaction). This field is an academic field that studies how humans and computers communicate with each other and recognize information. This study is a study on hand gesture recognition for human interaction. This study examines the problems of existing recognition methods and proposes an algorithm to improve the recognition rate. The hand region is extracted based on skin color information for the image containing the shape of the human hand, and the center of gravity profile is calculated using principal component analysis. I proposed a method to increase the recognition rate of hand gestures by comparing the obtained information with predefined shapes. We proposed a method to increase the recognition rate of hand gestures by comparing the obtained information with predefined shapes. The existing center of gravity profile has shown the result of incorrect hand gesture recognition for the deformation of the hand due to rotation, but in this study, the center of gravity profile is used and the point where the distance between the points of all contours and the center of gravity is the longest is the starting point. Thus, a robust algorithm was proposed by re-improving the center of gravity profile. No gloves or special markers attached to the sensor are used for hand gesture recognition, and a separate blue screen is not installed. For this result, find the feature vector at the nearest distance to solve the misrecognition, and obtain an appropriate threshold to distinguish between success and failure.

The Evaluation of Effectiveness of Belt-type Hand Sanitizers in Clinical Nurses: Focusing on the performance of hand disinfection and the satisfaction (벨트형 손소독제 활용의 효과 평가: 임상간호사의 손소독 수행 정도와 만족도를 중심으로)

  • Cho, Yoonju;Lee, Insook
    • Journal of Digital Convergence
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    • v.18 no.3
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    • pp.275-285
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    • 2020
  • The aims of this study was to examine the effect on the hand disinfection performance, the performance rate, and the satisfaction with the use of the belt-type hand sanitizers in clinical nurses. The study is a one group pre-post test quasi-experimental design. Effectiveness of using the belt-type hand sanitizers was measured with a self-reporting questionnaire. As a result, the performance of hand disinfection and the performance rate were significantly higher after using the belt-type hand sanitizers, and also, the satisfaction with the use of the belt-type hand sanitizers was significantly high. The belt-type hand sanitizer is effective method to improve both hand disinfection performance and its performance rate. Therefore, if the belt-type hand sanitizer is used in clinical practice, it may contribute to the improving the hand disinfection performance and its performance rate.

Real-time Hand Region Detection and Tracking using Depth Information (깊이정보를 이용한 실시간 손 영역 검출 및 추적)

  • Joo, SungIl;Weon, SunHee;Choi, HyungIl
    • KIPS Transactions on Software and Data Engineering
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    • v.1 no.3
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    • pp.177-186
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    • 2012
  • In this paper, we propose a real-time approach for detecting and tracking a hand region by analyzing depth images. We build a hand model in advance. The model has the shape information of a hand. The detecting process extracts out moving areas in an image, which are possibly caused by moving a hand in front of a camera. The moving areas can be identified by analyzing accumulated difference images and applying the region growing technique. The extracted moving areas are compared against a hand model to get justified as a hand region. The tracking process keeps the track of center points of hand regions of successive frames. For this purpose, it involves three steps. The first step is to determine a seed point that is the closest point to the center point of a previous frame. The second step is to perform region growing to form a candidate region of a hand. The third step is to determine the center point of a hand to be tracked. This point is searched by the mean-shift algorithm within a confined area whose size varies adaptively according to the depth information. To verify the effectiveness of our approach, we have evaluated the performance of our approach while changing the shape and position of a hand as well as the velocity of hand movement.

A Real-time Hand Pose Recognition Method with Hidden Finger Prediction (은닉된 손가락 예측이 가능한 실시간 손 포즈 인식 방법)

  • Na, Min-Young;Choi, Jae-In;Kim, Tae-Young
    • Journal of Korea Game Society
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    • v.12 no.5
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    • pp.79-88
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    • 2012
  • In this paper, we present a real-time hand pose recognition method to provide an intuitive user interface through hand poses or movements without a keyboard and a mouse. For this, the areas of right and left hands are segmented from the depth camera image, and noise removal is performed. Then, the rotation angle and the centroid point of each hand area are calculated. Subsequently, a circle is expanded at regular intervals from a centroid point of the hand to detect joint points and end points of the finger by obtaining the midway points of the hand boundary crossing. Lastly, the matching between the hand information calculated previously and the hand model of previous frame is performed, and the hand model is recognized to update the hand model for the next frame. This method enables users to predict the hidden fingers through the hand model information of the previous frame using temporal coherence in consecutive frames. As a result of the experiment on various hand poses with the hidden fingers using both hands, the accuracy showed over 95% and the performance indicated over 32 fps. The proposed method can be used as a contactless input interface in presentation, advertisement, education, and game applications.