• 한국정밀공학회:학술대회논문집
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• 한국정밀공학회 2012년도 추계학술대회 논문집
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• pp.57-58
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• 2012

• Smart Structures and Systems
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• 제14권5호
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• pp.765-784
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• 2014

In comparison with conventional shape memory actuated structures, antagonistic shape memory alloy (SMA) actuators permits a fully reversible two-way response and higher response frequency. However, excessive internal stress could adversely reduce the stroke of the actuators under repeated use. The two-way shape memory effect might further decrease the range of the recovered strain under actuation of an antagonistic SMA actuator unless additional components (e.g., spring and stopper) are added to regain the overall actuation capability. In this paper, the performance of all four possible types of SMA actuation schemes is investigated in detail with emphasis on five key properties: recovered strain, cyclic degradation, response frequency, self-sensing control accuracy, and controllable maximum output. The testing parameters are chosen based on the maximization of recovered strain. Three types of these actuators are antagonistic SMA actuators, which drive with two active SMA wires in two directions. The antagonistic SMA actuator with an additional pair of springs exhibits wider displacement range, more stable performance under reuse, and faster response, although accurate control cannot be maintained under force interference. With two additional stoppers to prevent the over stretch of the spring, the results showed that the proposed structure could achieve significant improvement on all five properties. It can be concluded that, the last type actuator scheme with additional spring and stopper provide much better applicability than the other three in most conditions. The results of the performance analysis of all four SMA actuators could provide a solid basis for the practical design of SMA actuators.

• 대한기계학회논문집A
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• 제27권2호
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• pp.215-222
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• 2003

In this paper, kinematic analysis and design of constant force mechanisms which employ a linear spring are studied. Firstly, sufficient conditions for the mechanisms to be the constant force mechanisms are derived in terms of displacement variables through the kinematic analysis. Secondly, a few conceptual mechanisms satisfying these constraints are proposed.

• 한국지능시스템학회논문지
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• 제26권2호
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• pp.147-152
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• 2016

형상기억합금은 가열되거나 냉각될 때 모양과 강도가 변화하면서 큰 힘을 발생한다. 와이어 형태의 형상기억합금은 열을 가하면 길이가 축소되면서 상당히 큰 힘을 발휘하며, 소음없는 운동을 발생시킬 수 있으므로 모터를 대체할 수 있는 구동기로 활용가능하다. 이런 형상기억합금 구동기는 전기로 직접 가열할 수 있으며, 큰 범위의 운동을 만들어내는데 사용될 수 있다. 본 논문에서는 형상기억합금 구동기를 이용하여 3 개의 손가락을 가진 6 자유도의 로봇 손을 개발하고 제어하는 것에 대해 기술한다. 각 손가락은 2 개의 관절을 가지고 있으며, 각 관절은 길항(拮抗) 운동을 위해 서로 반대로 동작하는 두 개의 힘줄에 의해 구동된다. 부드러운 운동을 위한 충분한 힘을 만들어 내기 위해 각 힘줄은 2 개의 형상기억합금 구동기가 병렬로 구성된다. 형상기억합금 구동기를 가열하기 위한 전류를 제어하기 위해 PWM 드라이버를 채용하였으며, 실험을 통해 손가락의 길항 작용을 평가한다.

• 대한기계학회논문집
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• 제18권9호
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• pp.2284-2296
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• 1994

Force control of robotic mechanisms continues to be a challenging area. Previous implementation have seldom produced satisfactory results, and researchers in the past have experienced significant instability problems associated with their force controllers. In this study, a new stability factor in force control will be pointed out. When a manipulator is constrained to an environment(force-controlled), geometric instability due to the relationship between the manipulator configuration and the force-controlled direction is shown to be a significant factor in overall system stability. This exploratory study points out a rather intuitive, geometrically based stability factor in terms of an effective system stiffness and analyzes the phenomenon both analytically and graphically. Also, a stiffness control algorithm using the kinematic redundancy of a kinematically redundant manipulator is proposed to improve the overall stability in force control.

• 한국정밀공학회지
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• 제14권9호
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• pp.68-79
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• 1997

A six DOF fine manipulator based on magnetic levitation is developed. Since most of magnetic levitation system are inherently unstable, a proposed magnetically levitated fine manipulator is implemented by use of an antagonistic structure to increase stability. From mathematical modeling and experiment, the equations of motion are derived. In addition, a six DOF sensing system is implemented by use of three 2-axis PSD sensors. A model reference-$H_{\infty}$ controller is applied to the system for the position control, In application of the fine manipulator, a wafer probing system is proposed to identify nonfunctional circuts. The probing system requires compliance to avoid destruction of DUT(device under test). A feedfor- ward-PD controllers are presented by the terms of the position accuracy, the settling time and the force accuracy.y.

• 한국엔터테인먼트산업학회논문지
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• 제14권7호
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• pp.309-318
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• 2020

지금까지의 미야자키 하야오 작품 연구의 경향은 작품의 미학적 분석 및 사회적 의의에 치중되어 왔다. 본 논문은 3막 구조, 혹은 8 시퀀스 구조라고 불리는 내러티브 구조 및 주요 등장인물의 갈등을 유발하는 대립자 등 할리우드의 규범적 스토리텔링의 요소를 변주하여 차용하는 미야자키 하야오의 스토리텔링 전략에 대한 구체적인 분석을 수행하고, 이와 같은 변칙적인 스토리텔링으로 인해 야기될 수 있는 서사상의 단점이 해당 작품의 설화적, 그리고 동화적 성격으로 인해 상호보완 된 사례를 살핌으로써 미야자키 하야오 작품 연구의 다각화에 기여하고자 한다. 이를 위해 본 논문은 주인공의 목표를 방해하는 특정 대립자의 존재 없이 상황과 인물 관계의 설정만으로 이에 상응하는 극적 효과를 성취한 <이웃집 토토로>와 첫 번째 대립자가 극의 중간점 전후로 아군으로 돌아서는 <하울의 움직이는 성>과 <센과 치히로의 행방불명>의 대안적 대립 운용의 사례를 살펴보았다. 또한 해당 작품들의 내러티브 전개가 서사 구조상의 구획을 축약하고 확장하는 등, 8 시퀀스 구조의 재구성을 통해 관객을 흥미를 효과적으로 유발하는 설화적 스토리텔링의 구조를 성취한 사례의 구체적인 분석을 수행하였다.

• 대한인간공학회지
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• 제28권3호
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• pp.1-6
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• 2009

Recently, importance of the rehabilitation of hand pathologies as well as the development of high-technology hand robot has been increased. The biomechanical model of hand is indispensable due to the difficulty of direct measurement of muscle forces and joint forces in hands. In this study, a three-dimensional biomechanical model of four fingers including three joints and ten muscles in each finger was developed and a mathematical relationship between neural commands and finger forces which represents the enslaving effect and the force deficit effect was proposed. When pressing a plate under the flexed posture, the muscle forces and the joint forces were predicted by the optimization technique. The results showed that the major activated muscles were flexion muscles (flexor digitorum profundus, radial interosseous, and ulnar interosseous). In addition, it was found that the antagonistic muscles were also activated rather than the previous models, which is more realistic phenomenon. The present model has considered the interaction among fingers, thus can be more powerful while developing a robot hand that can totally control the multiple fingers like human.

• 대한기계학회논문집A
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• 제20권4호
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• pp.1164-1176
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• 1996

A magnetically levitated micro-positioner is implemented to avoid mechanical friction and increase precision. Since magnetic levitation system is inherently unstable, most concern is focused on a magnetic circuit design to increase the system dynamic stability. For this, the proposed levitation system is constructed by using an antagonistic structure which permits a simple design and robust stability. From the dynamic equations of motion, it is verified that the proposed magnetically levitated system is decoupled in 6 degree-of-freedom motion. Experimental results are presented in terms of time response and accuracy.

• 한국소음진동공학회:학술대회논문집
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• 한국소음진동공학회 2005년도 추계학술대회논문집
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• pp.891-894
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• 2005

This paper describes a human finger model driven by shape memory alloy(SMA) wires. The finger model has three joints that are similar to human finger. Each joint is actuated with two wires in the antagonistic manner and six wires are used to actuate three finger joint. In order to obtain the desirable finger motion, the diameters of the SMA wires are designed with different diameters by considering the required actuating force and response time. The rotary sensors are used to measure the angle positions of the joints and PWM control using PID algorithm is used to achieve desired angle positions of the finger joints. After estimating the control performance of each finger joint for the desired angle position, the antagonistic motion control of the finger model is experimentally evaluated.