• 한국운동역학회지
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• 제17권2호
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• pp.145-156
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• 2007

The purposes of this study were to investigate kinematic parameters of racket head and upper extremities during squash back hand stroke and to provide quantitative data to the players. Five Korean elite male players were used as subjects in this study. To find out the swing motion of the players, the land-markers were attached to the segments of upper limb and 3-D motion analysis was performed. Orientation angles were also computed for angular movement of each segment. The results were as follows. 1) the average time of the back hand swing (downswing + follow-through) was 0.39s (0.24 s + 0.15 s). 2) for each event, the average racket velocity at impact was 11.17m/s and the velocity at the end of swing was 8.03m/s, which was the fastest swing speed after impact. Also, for each phase, 5.10m/s was found in down swing but 7.68m/s was found in follow-through. Racket swing speed was fastest after the impact but the swing speed was reduced in the follow-through phase. 3) in records of average of joints angle, shoulder angle was defined as the relative angle to the body. 1.04rad was found at end of back swing, 1.75rad at impact and it changes to 2.35 rad at the end of swing. Elbow angle was defined as the relative angle of forearm to upper arm. 1.73rad was found at top of backswing, 2.79rad at impact, and the angle was changed to 2.55rad at end of swing. Wrist angle was defined as the relative angle of hand to forearm. 2.48rad was found at top of backswing, 2.86rad at impact, and the angle changes to 1.96rad at end of swing. As a result, if the ball is to fly in the fastest speed, the body has to move in the order of trunk, shoulder, elbow and wrist (from proximal segment to distal segment). Thus, the flexibility of the wrist can be very important factor to increase ball speed as the last action of strong impact. In conclusion, the movement in order of the shoulder, elbow and the wrist decided the racket head speed and the standard deviations were increased as the motion was transferred from proximal to the distal segment due to the personal difference of swing arc. In particular, the use of wrist (snap) may change the output dramatically. Therefore, it was concluded that the flexible wrist movement in squash was very important factor to determine the direction and spin of the ball.

• 실천공학교육논문지
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• 제14권3호
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• pp.543-553
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• 2022

협동로봇은 4차 산업혁명에서 제시하고 있는 생산시스템 중 하나로 작업자의 정교한 손기술과 로봇의 단순 반복작업 능력을 조합하여 효율성을 극대화할 수 있는 시스템이다. 또한, 작업자와 로봇 간의 작업공간 공유에서 발생하는 안전문제의 해결과 함께 효율적인 인터페이스 방법 개발에 대한 연구가 지속적으로 진행되고 있다. 본 연구에서는 이를 위하여 작업자의 편리성과 집중도를 강화하기 위해 작업자의 수신호를 인식하여 로봇을 제어하는 방법을 제시하였으며 안전공간의 개념을 도입하여 작업자의 안전을 확보하였다. 이를 구현하기 위하여 로봇제어, PLC, 영상처리, 기계학습, ROS 등 다양한 기술을 사용하였다. 또한 이를 교육매체로 활용하기 위하여 제시된 기술들의 역할과 인터페이스 방법을 정의하여 제시하였다. 학습자들은 소개된 여러 기술들을 연계하여 시스템을 구축하고 조정하는 일을 수행한다. 따라서 현장에서 필요한 기술의 필요성을 인식시키고 이에 대한 심화 학습을 유도할 수 있는 큰 장점이 있다. 또한 문제를 제시한 뒤 스스로 문제를 해결하는 방법을 모색하는 형태로 진행해 자기 주도적으로 학습할 수 있도록 유도할 수 있다. 이를 통해 4차 산업혁명의 주요 기술들을 학습하고 다양한 문제에 대한 해결 능력을 향상시킬 수 있다.

• 한국정보통신학회:학술대회논문집
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• 한국해양정보통신학회 2003년도 추계종합학술대회
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• pp.864-867
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• 2003

범지구 측위 시스템(GPS : Global Positioning System)은 미국 국방성에서 개발한 인공위성에 의한 측위 시스템으로 주로 군사용으로만 사용되던 GPS가 민간에게 개방된 것은 87년경이다. 이 시스템은 항공기와 선박의 항법, 미사일 유도 등 군사, 항법이 주목적이었으나, 그 이용 가능성은 무궁하여 측지 및 측량, 시가지 자동차 항법, GIS의 자료 구축 수단으로서 옹용 폭이 확대되고 있다. 최근 들어 국내에서도 GPS(Global Positioning System)를 이용한 임베디드 시스템 개발에 박차를 가하고 있으며, 연구 또한 활발하게 진행되고 있으며, 그 대표적인 적용 사례로는 Car Navigation과 96년 한강의 서강 대교 윌슨 아치 구간의 설치 시공에 DGPS(Differential GPS)를 이용하여 cm 정확도의 정밀 위치 유도를 한 것은 성공적인 사례로 평가된다. 또한 각급 지자단체, 정부 각 부처 기관에서의 사업수행에 GPS를 이용한 사례가 점진적으로 보고 되고 있으며, 그 예로 BIS(Bus Information System) 가 널리 확산되고 있는 현실이다. 또한 국립지리원의 전자지도(NGIS)의 DB를 바탕으로 GPS를 이용하여 추후에 물류 관리제 시스템의 연구가 활발해 질 것으로 전망된다. 본 논문에서는 GPS의 시스템을 이용하여 차량용이나, 토지 공사의 위치 측정에 사용하는 부피가 큰 임베디드 시스템이 아닌 도보나 등산객, 마라톤 선수들이 사용할 수 있는, 휴대하기 용이한 Hand Held의 Proto Type을 구현해 보았다.

• 재활치료과학
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• 제4권1호
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• pp.7-17
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• 2015

목적 : 본 연구의 목적은 집중적 양손활동훈련을 편측 뇌성마비 아동에게 적용한 후 상지 재활 효과와 양손 협응 능력의 변화를 살펴본 연구에 대해서 분석하는 것이다. 연구방법 : 2004년부터 2014년 현재까지 국내 외 학회지에 게재된 논문을 RISS, Pubmed를 통해 검색하였다. 1, 2차 분류를 통해 총 6개의 실험연구 논문이 대상논문으로 선정되었다. 결과 : 선정된 6편의 문헌은 모두 국외 논문이었으며, PEDro score는 5점 이상으로 높은 편 이었다. 사용된 중재는 강제유도운동치료의 변형형태가 가장 많았으며, 상지기능과 양손 협응 측정 위한 평가도구로는 AHA와 JTTHF가 가장 많은 빈도를 보였고, 그 외 QUEST, ABILHAND-Kids, COPM, GAS, PEDI, 3-D movement kinematics가 중재효과의 다양한 측면을 평가하는데 사용되었다. 고찰 : 본 연구를 통하여 집중적 양손활동훈련이 편측 뇌성마비아동의 상지 기능뿐만 아니라 양손 협응에 긍정적인 영향을 준다는 것을 확인하였고, 더 나아가 양손 협응이 요구되는 대부분의 일상생활의 참여에 도움을 줄 수 있음을 알아보았다. 이와 같은 결과는 작업치료사로서 국내 임상가들에게 편측 뇌성마비 아동을 위한 새로운 중재방법의 기초자료를 제시하고, 효과적인 치료 접근법을 알려주는 데 도움이 될 것이다.

• 천문학회보
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• 제40권1호
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• pp.69.1-69.1
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• 2015

Classical T Tauri star DG Tau is suggested as the driving source of parsec-scale jet which expands up to 650" (0.4 pc). To investigate the kinematics and physical properties of the jet, we have obtained the optical emission lines of $H{\alpha}$, [O I] ${\lambda}{\lambda}$6300, 6363, [N II] ${\lambda}{\lambda}$6548,6584, and [S II] ${\lambda}{\lambda}$6716, 6731 from HH 158 ad HH 702. The radial velocity of HH 158 is in the range of -50 to $-250km\;s^{-1}$. For HH 702, located at 650" from the source, it shows ~ $-80km\;s^{-1}$. In HH 158, the electron density ($n_e$) close to the star is ${\sim}10^4cm^{-3}$ and it decreases to ${\sim}10^2cm^{-3}$ at 14" away from the star. Electron temperature ($T_e$) is decreasing from >15,000 K to ~5,000 K with distance. Ionization fraction ($x_e$) is increasing from almost zero to > 0.4 along the distance. In HH 702, the values of $n_e$, $T_e$, and $x_e$ are similar to those estimated at 14" from source, where knot C of HH 158 is located. This may imply that the physical properties of the knot could persist through such a long distance in the space, and the gas could be re-excited by the shock during propagation of the jet. On the other hand, we cannot avoid the possibility that HH 702 is driven by another source rather than DG Tau because HH 158 and HH 702 show somewhat large difference in their inclination angles (${\Delta}i=21-35^{\circ}$).

• 대한인간공학회지
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• 제34권6호
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• pp.583-595
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• 2015

Objective: The purpose of this study was to determine the reliability of lower limb joint angles computed with the software ImageJ during jumping movements. Background: Kinematics is the study of bodies in motion without regard to the forces or torques that may produce the motion. The most common method for collecting motion data uses an imaging and motion-caption system to record the 2D or 3D coordinates of markers attached to a moving object, followed by manual or automatic digitizing software. Above all, passive optical motion capture systems (e.g. Vicon system) have been regarded as the gold standards for collecting motion data. On the other hand, ImageJ is used widely for an image analysis as free software, and can collect the 2D coordinates of markers. Although much research has been carried out into the utilizations of the ImageJ software, little is known about their reliability. Method: Seven healthy female students participated as the subject in this study. Seventeen reflective markers were attached on the right and left lower limbs to measure two and three-dimensional joint angular motions. Jump performance was recorded by ten-vicon camera systems (250Hz) and one digital video camera (240Hz). The joint angles of the ankle and knee joints were calculated using 2D (ImageJ) and 3D (Vicon-MX) motion data, respectively. Results: Pearson's correlation coefficients between the two methods were calculated, and significance tests were conducted (${\alpha}=1%$). Correlation coefficients between the two were over 0.98. In Vicon-MX and ImageJ, there is no systematic error by examination of the validity using the Bland-Altman method, and all data are in the 95% limits of agreement. Conclusion: In this study, correlation coefficients are generally high, and the regression line is near the identical line. Therefore, it is considered that motion analysis using ImageJ is a useful tool for evaluation of human movements in various research areas. Application: This result can be utilized as a practical tool to analyze human performance in various fields.

• Computers and Concrete
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• 제7권4호
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• pp.347-364
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• 2010

Since its invention in the $19^{th}$ century, Reinforced Concrete (RC) has been widely used in the construction of a lot of different structures, as buildings, bridges, nuclear central plants, or even ships. The details of the mechanical response for this kind of structures depends directly upon the material behavior of each component: concrete and steel, as well as their interaction through the bond-slip, which makes a rigorous engineering analysis of RC structures quite complicated. Consequently, the practical calculation of RC structures is done by adopting a lot of simplifications and hypotheses validated in the elastic range. Nevertheless, as soon as any RC structural element is working in the inelastic range, it is possible to obtain the numerical prediction of its realistic behavior only through the use of non linear analysis. The aim of this work is to develop a new kind of Finite Element: the "Enhanced Solid Element (ESE)" which takes into account the complex composition of reinforced concrete, being able to handle each dissipative material behavior and their different deformations, and on the other hand, conserving a simplified shape for engineering applications. Based on the recent XFEM developments, we introduce the concept of nodal enrichment to represent kinematics of steel rebars as well as bonding. This enrichment allows to reproduce the strain incompatibility between concrete and steel that occurs because of the bond degradation and slip. This formulation was tested with a couple of simple examples and compared to the results obtained from other standard formulations.

• 한국정밀공학회지
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• 제24권8호통권197호
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• pp.130-137
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• 2007

The optimized prosthetic mass distribution was a controversial problem in the previous studies because they are not supported by empirical evidence. The purpose of the present study was to evaluate the effect of prosthetic mass properties by modeling musculoskeletal system, based on the gait analysis data from two above-knee amputees. The joint torque at hip joint was calculated using inverse dynamic analysis as the mass was changed in knee and foot prosthetic components with the same joint kinematics. The results showed that the peak flexion and abduction torque at the hip joint were 5 Nm and 15 Nm when the mass of the knee component was increased, greater than the peak flexion and abduction torque of the control group at the hip joint, respectively. On the other hand, when the mass of the foot component was increased, the peak flexion and abduction torque at the hip joint were 20 Nm and 15 Nm, greater than the peak flexion and abduction torque of the control, respectively. The hip flexion torque was 4.71-fold greater and 7.92-fold greater than the hip abduction torque for the knee mass increase and the foot mass increase on the average, respectively. Therefore, we could conclude that the effect of foot mass increase was more sensitive than that of knee mass increase for the hip flexion torque. On the contrary, the mass properties of the knee and foot components were not sensitive for the hip abduction torque. In addition, optimized prosthetic mass and appropriate mass distributions were needed to promote efficiency of rehabilitation therapy with consideration of musculoskeletal systems of amputees.

• 한국운동역학회지
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• 제19권3호
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• pp.425-433
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• 2009

본 연구의 목적은 속구와 멀리던지기 동작 사이의 상호관계를 밟히며, 속구와 멀리던지기 동작의 투구시 운동학적으로 어떠한 차이가 있는 밝히는 것이다. 8명의 대학교 야구선수들이 실험에 참여하였다. APAS(Ariel Performance Analysis System) 동작분석시스템을 이용하여 속구와 멀리던지기 동작에 대한 운동학적 변인을 구하여 분석하였다. 본 연구의 결과로 신체중심의 전후변위에서 투구후반부에서 속구가 멀리던지기보다 신체중심이 앞으로 이동하였고, 상하변위에서는 속구가 더 낮은 자세를 보였다. 오른손의 속도에서는 릴리즈 시 속구가 더 빠르게 나타났고, 팔꿈치관절에서는 투구중반부에서는 속구가 더 신전되었고, 릴리즈에서는 동일하였고, 어깨관절에서는 팔 가속지점에서 속구가 더 신전된 것으로 나타났다. 몸통경사에서는 릴리즈 시 속구는 전방으로 멀리던지기는 후방경사를 취하고 있었다. 보폭은 속구가 더 긴 것으로 나타났다. 2가지 투구동작에서 동일한 자세에서 시작하지만, 각 변인에 따라 공통점과 차이점을 발견할 수 있었다. 이러한 이유로, 속구를 던지기 위해 멀리던지기 훈련이 어느 정도 도움이 될 것으로 생각된다.

• 한국기계가공학회지
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• 제11권6호
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• pp.130-138
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• 2012

There are increasing demands from the industry for intelligent robot-calibration solutions, which can be tightly integrated to the manufacturing process. A proposed solution can simplify conventional robot-calibration and teaching methods without tedious procedures and lengthy training time. iGPS(Indoor GPS) system is a laser based real-time dynamic tracking/measurement system. The key element is acquiring and reporting three-dimensional(3D) information, which can be accomplished as an integrated system or as manual contact based measurements by a user. A 3D probe is introduced as the user holds the probe in his hand and moves the probe tip over the object. The X, Y, and Z coordinates of the probe tip are measured in real-time with high accuracy. In this paper, a new approach of robot-calibration and teaching system is introduced by implementing a 3D measurement system for measuring and tracking an object with motions in up to six degrees of freedom. The general concept and kinematics of the metrology system as well as the derivations of an error budget for the general device are described. Several experimental results of geometry and its related error identification for an easy compensation / teaching method on an industrial robot will also be included.