• 한국철도학회논문집
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• 제19권2호
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• pp.135-144
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• 2016

분기기 거더 경량화는 제작비 감소 및 제작의 용이함을 위해 필수적이다. 자기부상열차용 3방향 분기기 경량화를 위한 설계변수는 부상안정성과 관련 있기 때문에 신중히 결정되어야 한다. 도시형 자기부상열차는 대차가 레일을 감싸는 구조로 되어 있기 때문에 거더 높이 변경을 통해서 경량화가 가능하다. 실제 테스트베드에서 반복 주행시험을 통해 안정성을 확보해야 하지만 공간적, 비용적 제한에 의해 여러 거더 높이의 테스트베드 제작은 불가능하며 이를 보완하기 위한 설계 파라미터 연구는 필수적이다. 본 논문에서는 자기부상열차 주행 시 3방향 분기기 경량화에 따른 부상안정성을 고려한 설계 파라미터 연구에 그 목적이 있다. 이를 위해 분기기 거더 높이 변경을 통해 경량화하였고 모달 중첩법을 이용하여 유연체로 모델링 하였다. 유연체 분기기와 자기부상열차 동역학 모델과의 연동해석을 통해 차량의 통과속도, 횡 공극, 부상 공극을 비교하고 부상안정성에 미치는 영향을 분석하였다. 이를 통해 거더높이와 부상안정성과의 상관관계에 대해 분석하였다. 본 논문의 연구 결과는 자기부상열차용 분기기 설계에 활용 가능할 것이다.

• 한국전산구조공학회:학술대회논문집
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• 한국전산구조공학회 2005년도 춘계 학술발표회 논문집
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• pp.55-62
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• 2005

In this paper, a CAB/CAE integrated optimal design system is developed, in which design and analysis process is automated using CAD/CAE softwares, for a complicated model for which parametric modeling provided by CAD software is not possible. CAD modeling process is automated by using UG/OPEN API function and UG/Knowledge Fusion provided by Unigraphics. The generated model is transferred to the analysis code ANSYS in parasolid format. Visual DOC software is used for optimization. The system is developed for PLS(Plasma Lighting System), which is a next generation illumination system that is used to illuminate stadium or outdoor advertizing panel. The PLS system consists of more then 20 components, which requires a lot of human efforts in modeling and analysis. The analysis for PLS includes static load, wind load and impact load analysis. As a result of analysis, it is found that the most critical component is a tilt assembly, which links lower & upper body assembly. For more reliable analysis, experiment is conducted using MTS and compared with the Finite element analysis result. The objective in the optimization is to minimize the material volume under allowable stresses. The design variables are three parameters in the tilt assembly that are chosen to be the most sensitive in stress values of twelve parameters. Gradient based method and RSM(Response Surface Method) are used for the algorithm and the results are compared. As a result of optimization, the maximum stress is reduced by 57%.

• Journal of Computational Design and Engineering
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• 제3권2호
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• pp.161-177
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• 2016

In history based parametric CAD modeling systems, persistent identification of the topological entities after design modification is mandatory to keep the design intent by recording model creation history and modification history. Persistent identification of geometric and topological entities is necessary in the product design phase as well as in the re-evaluation stage. For the identification, entities should be named first according to the methodology which will be applicable for all the entities unconditionally. After successive feature operations on a part body, topology based persistent identification mechanism generates ambiguity problem that usually stems from topology splitting and topology merging. Solving the ambiguity problem needs a complex method which is a combination of topology and geometry. Topology is used to assign the basic name to the entities. And geometry is used for the ambiguity solving between the entities. In the macro parametrics approach of iCAD lab of KAIST a topology based persistent identification mechanism is applied which will solve the ambiguity problem arising from topology splitting and also in case of topology merging. Here, a method is proposed where no geometry comparison is necessary for topology merging. The present research is focused on the enhancement of the persistent identification schema for the support of ambiguity problem especially of topology splitting problem and topology merging problem. It also focused on basic naming of pattern features.

• 한국근적외분광분석학회:학술대회논문집
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• 한국근적외분광분석학회 2001년도 NIR-2001
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• pp.1182-1182
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• 2001

In this study, the newly constructed optical measurement system, which was mainly composed of a parametric tunable laser and a near infrared photoelectric multiplier, was introduced to clarify the optical characteristics of wood as discontinuous body with anisotropic cellular structure from the viewpoint of the time-of-flight near infrared spectroscopy (TOF-NIRS). The combined effects of the cellular structure of wood sample, the wavelength of the laser beam λ, and the detection position of transmitted light on the time resolved profiles were investigated in detail. The variation of the attenuance of peak maxima At, the time delay of peak maxima Δt and the variation of full width at half maximum Δw were strongly dependent on the feature of cellular structure of a sample and the wavelength of the laser beam. The substantial optical path length became about 30 to 35 times as long as sample thickness except the absorption band of water. Δt ${\times}$ Δw representing the light scattering condition increased exponentially with the sample thickness or the distance between the irradiation point and the end of sample. Around the λ=900-950 nm, there may be considerable light scattering in the lumen of tracheid, which is multiple specular reflection and easy to propagate along the length of wood fiber. Such tendency was remarkable for soft wood with the aggregate of thin layers of cell walls. When we apply TOF-NIRS to the cellular structural materials like wood, it is very important to give attention to the difference in the light scattering within cell wall and the multiple specular-like reflections between cell walls. We tried to express the characteristics of the time resolved profile on the basis of the optical parameters for light propagation determined by the previous studies, which were absorption coefficient K and scattering coefficient S from Kubelka-Munk theory and n from nth power cosine model of radiant intensity. The wavelength dependency of the product of K/S and n, which expressed the light-absorbing and -scattering condition and the degree of anisotropy, respectively, was similar to that of the time delay of peak maxima Δt. The variation of the time resolved profile is governed by the combination of these parameters. So, we can easily find the set of parameters for light propagation synthetically from Δt.

• 한국전자통신학회논문지
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• 제18권6호
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• pp.1321-1330
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• 2023

본 연구는 증강현실에서 적용할 캐릭터 생성에서 단일 이미지를 통해 여러 객체에 대한 3D 자세 추정 문제를 연구한다. 기존 top-down 방식에서는 이미지 내의 모든 객체를 먼저 감지하고, 그 후에 각각의 객체를 독립적으로 재구성한다. 문제는 이렇게 재구성된 객체들 사이의 중첩이나 깊이 순서가 불일치 하는 일관성 없는 결과가 발생할 수 있다. 본 연구의 목적은 이러한 문제점을 해결하고, 장면 내의 모든 객체에 대한 일관된 3D 재구성을 제공하는 단일 네트워크를 개발하는 것이다. SMPL 매개변수체를 기반으로 한 인체 모델을 top-down 프레임워크에 통합이 중요한 선택이 되었으며, 이를 통해 거리 필드 기반의 충돌 손실과 깊이 순서를 고려하는 손실 두 가지를 도입하였다. 첫 번째 손실은 재구성된 사람들 사이의 중첩을 방지하며, 두 번째 손실은 가림막 추론과 주석이 달린 인스턴스 분할을 일관되게 렌더링하기 위해 객체들의 깊이 순서를 조정한다. 이러한 방법은 네트워크에 이미지의 명시적인 3D 주석 없이도 깊이 정보를 제공하게 한다. 실험 결과, 기존의 Interpenetration loss 방법은 MuPoTS-3D가 114, PoseTrack이 654에 비해서 본 연구의 방법론인 Lp 손실로 네트워크를 훈련시킬 때 MuPoTS-3D가 34, PoseTrack이 202로 충돌수가 크게 감소하는 것으로 나타났다. 본 연구 방법은 표준 3D 자세벤치마크에서 기존 방법보다 더 나은 성능을 보여주었고, 제안된 손실들은 자연 이미지에서 더욱 일관된 재구성을 실현하게 하였다.