• 한국정밀공학회지
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• 제29권10호
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• pp.1043-1049
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• 2012

The FEM analysis of machine tools is the general analysis process to evaluate machine performance in the industry for a long time. Despite advances in FEM software, because of difficult simplicity of CAD drawing, little experience of joints stiffness modeling and troublesome manual contact area divide for bindings, the industry designers think the FEM analysis is still an area of FEM analysis expert. In this paper, the automation of modeling process with simplicity of drawing, modeling of joints and contact area divide is aimed at easy FEM analysis to enlarge utilization of a virtual machine tools. In order to verify the effects of modeling automation, a slant bed type model with tilting table is analyzed. The results show FEM modeling automation method only needed 45 minutes to complete the whole modeling process, while manual modeling method requires almost one month with 8200 calculations for coordinate transformations and stiffness data input.

• 한국건설관리학회논문집
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• 제10권6호
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• pp.3-12
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• 2009

건설 프로젝트의 관리 측면에서 공사현장의 현황을 신속하고 정확하게 파악하는 것은 효율적인 자원의 배분을 위해 매우 중요한 작업이다. 또한 정밀 시공을 위한 시공 품질의 관리를 위해 도면과 실제 시공현장을 비교해야 할 경우가 있는데 증강현실 기술은 이러한 상황에서 간편하고 직관적인 정보를 제공해줄 수 있다는 장점이 있다. 기존의 건설현장 또는 야외에서의 증강현실의 구현은 카메라의 위치와 방향의 추적을 위해 추가적인 센서나 마커 등의 부착을 필요로 하는 방법들이 주류를 이루었다. 본 연구는 공사 중이거나 시공 완료된 건물의 현황 파악에 응용할 수 있는 증강현실 기법의 개발을 목적으로 하였다. 특히 카메라 이외의 추가적인 장비의 사총을 배제하여 장비의 구성을 간소화 하고 마커의 부착이 불필요하여 접근이 불가능한 지역에 위치한 건물에 사용할 수 있는 증강현실기법을 구현하였다. 이를 위해 사진측량 및 비디오측량 분야에서 카메라의 위치와 방향을 추정하는데 사용되는 외부표정 과정을 통해 카메라의 투영 중심의 좌표와 향하고 있는 방향을 추정한 후 건물 외곽선을 표현하는 가상의 도면을 영상에 투영하였다. 그 결과 수 픽셀 정도의 정확도로 건물 영상과 가상 도면의 정합이 이루어진 것을 확인할 수 있었다. 이 기술은 증강현실의 구현에 있어서 장비의 구성을 간소화하는 효과가 있기 때문에 건설현장에서 공사현황 파악 및 품질관리 목적의 증강현실 기술의 보급을 보다 용이하게 할 것으로 예상된다. 또한 접근이 불가능한 지역에 대해서도 증강현실의 적용을 통해 효과적인 구조물 현황의 파악이 가능할 것이다. 나아가 이 기술과 4차원 CAD가 결합되면 스케줄에 따른 공정의 진행상황을 간편하게 비교할 수 있어서 공정관리 및 모니터링 작업을 효과적으로 지원할 수 있을 것으로 기대된다.

• Biomedical Engineering Letters
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• 제8권4호
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• pp.337-344
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• 2018

Additive manufacturing (AM) is an alternative metal fabrication technology. The outstanding advantage of AM (3D-printing, direct manufacturing), is the ability to form shapes that cannot be formed with any other traditional technology. 3D-printing began as a new method of prototyping in plastics. Nowadays, AM in metals allows to realize not only net-shape geometry, but also high fatigue strength and corrosion resistant parts. This success of AM in metals enables new applications of the technology in important fields, such as production of medical implants. The 3D-printing of medical implants is an extremely rapidly developing application. The success of this development lies in the fact that patient-specific implants can promote patient recovery, as often it is the only alternative to amputation. The production of AM implants provides a relatively fast and effective solution for complex surgical cases. However, there are still numerous challenging open issues in medical 3D-printing. The goal of the current research review is to explain the whole technological and design chain of bio-medical bone implant production from the computed tomography that is performed by the surgeon, to conversion to a computer aided drawing file, to production of implants, including the necessary post-processing procedures and certification. The current work presents examples that were produced by joint work of Polygon Medical Engineering, Russia and by TechMed, the AM Center of Israel Institute of Metals. Polygon provided 3D-planning and 3D-modelling specifically for the implants production. TechMed were in charge of the optimization of models and they manufactured the implants by Electron-Beam Melting ($EBM^{(R)}$), using an Arcam $EBM^{(R)}$ A2X machine.

• 디자인학연구
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• 제14권
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• pp.109-119
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• 1996

디자인 작업환경에 있어서 가장 중요한 요소는 관련분야의 정보를 체계적으로 종합화 할 수 있는 디자인 프로세스이다. 특히 급속하게 발전하고 있는 컴퓨터 테크놀러지로 인해 이제 디자이너는 새로운 테크놀러지에 능동적으로 대처해야만 한다. 또한 그러한 프로세스에 알맞은 통합시스템 개발에 적극적으로 참여 할 수 있어야 한다. 이에 본 연구는 최근에 와서 많은 진행되고 있는 컴퓨터를 응용한 제품디자인 개발 단에서 워크스테이션의 모델 링 과정을 살펴보고, 3차원 모델 링 한 3D 데이타를 기구 설계 부서에서 그대로 활용할 수 있는지를 택시미터기 디자인 개발사례를 통해, 도면 드로 인 틀로 많이 사용하는 오토캐드용 데이터로 전환으로 방법을 제시하였다. 워크스테이션으로 3차원 모델 링 한 데이터를 기구 설계 엔지니어가 사용 가능한 형태의 데이터로 전달함으로서 빠른 시간 내에 생산에 전달할 수 있도록 하여, 디자인 부서에서 3차원 모델 링 한 데이터를 설계 부서 생산 부서에서 합리적으로 활용할 수 있는 기틀을 마련하는 것을 목적으로 하였다.

• 한국CDE학회논문집
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• 제12권1호
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• pp.74-85
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• 2007

During the lifecycle of a nuclear power plant many organizations are involved in KOREA. Korea Plant Engineering Co. (KOPEC) participates in the design stage, Korea Hydraulic and Nuclear Power (KHNP) operates and manages all nuclear power plants in KOREA, Dusan Heavy Industries manufactures the main equipment, and a construction company constructs the plant. Even though each organization has a digital data management system inside and obtains a certain level of automation, data sharing among organizations is poor. KHNP gets drawing and technical specifications from KOPEC in the form of paper. It results in manual re-work of definition and there are potential errors in the process. A data warehouse based on a neutral model has been constructed in order to make an information bridge between design and O&M phases. GPM(generic product model), a data model from Hitachi, Japan is addressed and extended in this study. GPM has a similar architecture with ISO 15926 "life cycle data for process plant". The extension is oriented to nuclear power plants. This paper introduces some of implementation results: 1) 2D piping and instrument diagram (P&ID) and 3D CAD model exchanges and their visualization; 2) Interface between GPM-based data warehouse and KHNP ERP system.

• 한국멀티미디어학회논문지
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• 제17권3호
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• pp.393-404
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• 2014

본 연구는 전통건축 방식의 지붕곡을 전산학적으로 재해석하고 지붕가구부를 구성하는 부재들간의 기하학적 상관관계를 3D 데이터로 설계하기 위한 방안을 제시한다. 지붕곡을 형성하는 여러 개의 구성 요소, 즉 지붕가구부 부재들간의 상관관계를 전통건축 축조 방식에 근거하여 함수식으로 정의하고 분석된 데이터를 토대로 사용자가 원하는 지붕면을 구성하기 위한 각 부재들의 3차원 데이터 자동 생성 기법을 구현한다. 제안하는 방식은 부재간의 상관관계를 고려하여 지붕곡의 속성이 변경되면 지붕곡에 영향을 미치는 여러 개의 부재들이 자동으로 재설계되는 방식으로써 전통건축 설계의 효율을 높일 수 있다. 또한, 한옥의 다양한 지붕곡 설계를 보장하면서도 체계적인 설계와 규격화된 생산 및 가공을 가능하게 하여 한옥의 보급에 크게 기여할 수 있을 것으로 기대된다.

• 한국정밀공학회:학술대회논문집
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• 한국정밀공학회 2000년도 추계학술대회 논문집
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• pp.591-594
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• 2000

This paper describes a research work of developing a computer-aided design of product with bending and piercing for progressive working. An approach to the system for progressive working is based on the knowledge-based rules. Knowledge for the system is formulated from plasticity theories, experimental results and the empirical knowledge of field experts. The system has been written in AutoLISP on the AutoCAD with a personal computer and is composed of four main modules, which are input and shape treatment, flat pattern layout, strip layout and die layout module. Based on knowledge-based rules, the system is designed by considering several factors such as radius and angle of bend, material and thickness of product, complexities of blank geometry and punch profile, bending sequence, and availability of press. Strip layout drawing generated by the piercing processes with punch profiles divided into for external area is simulated in 3-D graphic forms, including bending sequences for the product with piercing and bending. Results obtained using the modules enable the manufacturer for progressive working of electronic products to be more efficient in this field.

• 대한기계학회논문집A
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• 제24권7호
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• pp.1779-1786
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• 2000

Most of traditional design processes of mechanical parts are regarded as sequential and discrete, since different kinds of softwas should be introduced. In this paper, we develop an integrated fram ework for virtual design and performance testing of an automobile seat. The system is composed of four modules, i.e. CAD, static analysis, dynamic analysis, and draft drawing module. In the CAD module, PRO/ENGINEER 3D seat model is created using parameters to be modified with the result of static and dynamic analysis. In the static analysis, headrest tere used in each design stage make it difficult to feedback their results to upstream process. These discrete processes may result in time loss and cost rise. In recent years, life cycle of product is reduced. To have competence with others, new concept design processt is simulated using ANSYS. In the dynamic analysis module, FMVSS201 test is simulated using DADS. Overall data flow is controlled by Motif. The advantage of the system is that even a novice can perform and review the whole design process, without a good hand at professional design/analysis S/W in each stage. The system also provides a virtual design space, where engineers in different development stage can access common data of design models. The concept could be applied to other fields and it could reduce time and money required in design process.

• 한국주조공학회지
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• 제22권5호
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• pp.265-270
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• 2002

A novel jewelry master pattern manufacturing process which reduce manufacturing steps by employing a Duraform rapid prototyping mold and a low melting alloy has been suggested. The novel process follows the steps of 'jewelry 3D CAD design ${\rightarrow}$ Durafrom RP mold ${\rightarrow}$ low melting alloy master pattern' while the previous process follows more complicated steps of 'jewelry idea sketch ${\rightarrow}$ detailed drawing ${\rightarrow}$ wax carving ${\rightarrow}$ flask ${\rightarrow}$ silver master pattern.' An upper and a lower part of molds have been manufactured of Duraform powder, of which melting point is $190^{\circ}C$. A maser pattern was manufactured by pouring a low melting alloy of Pb-Sn-Bi-Cd, so called Woods Metal, of which melting point is $70^{\circ}C$, into the mold. The master pattern is a shape of a disk of 20mm diameter that contains various design factors. The variations of dimensions, surface roughness, surface pore ratio were measured by an optical microscope, a surface roughness profilometer, and a Rockwell hardness tester. The pattern made of were maeasured by an optical microscope, a surface roughness profilometer, and a Rockwell hardness tester. The pattern made of low melting alloy has sufficient surface hardness, and surface pore ratio to be used as the jewelry master pattern.

• 한국정밀공학회:학술대회논문집
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• 한국정밀공학회 2002년도 춘계학술대회 논문집
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• pp.1012-1016
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• 2002

This paper describes a research work of developing computer-aided design of a product with bending and piercing for progressive working. An approach to the system for progressive working is based on the knowledge-based rules. Knowledge for the system is formulated from plasticity theories, experimental results and the empirical knowledge of field experts. The system has been written in Auto-LISP on the Auto-CAD with a personal computer and is composed of four main modules, which are input and shape treatment, flat pattern layout, strip layout, and die layout modules. The system is designed by considering several factors, such as bending sequences by fuzzy set theory, complexities of blank geometry, punch profiles, and the availability of a press equipment. Strip layout drawing generated in the strip layout module is presented in 3-D graphic forms, including bending sequences and piercing processes with punch profiles divided into for external area. The die layout module carries out die design for each process obtained from the results of the strip layout. Results obtained using the modules enable the manufacturer for progressive working of electric products to be more efficient in this field.