• Title/Summary/Keyword: Virtual Mockup

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A Development of the Virtual Mockup System(ViMS) for a System Design Review of Aircraft (항공기 체계 설계 검토용 가상목업시스템 개발)

  • Kim, Cheon-Young;Park, Young-Keun;Kim, Sung-Rae;Kim, Mun-Yeol;Reu, Tae-Kyu
    • Journal of the Korea Institute of Military Science and Technology
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    • v.10 no.4
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    • pp.97-104
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    • 2007
  • In this paper, we have proposed an integrated aircraft development environment which can support virtual design and development for Systems Engineering and IPPD(Integrated Product and Process Development). We have also proposed the ViMS(Virtual Mockup System) which can perform a system design review on an integrated aircraft development environment. The ViMS is an integrated virtual design support system with immersive design review functionality to make a virtual mockup instead of a physical mockup through the virtual reality technology. The functionality of the ViMS consists design data management, design technology, design verification, and design assessment. We have described the detailed development artifact, case studies and conclusions of using the ViMS functionality.

Collaborative Maintenance Simulation System Using Virtual Mockup (가상목업을 활용한 협업 정비 시뮬레이션 시스템)

  • Lee, Jun-Kyu
    • Journal of Korea Multimedia Society
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    • v.15 no.1
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    • pp.148-165
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    • 2012
  • Applying maintenance simulation using virtual mockup in product design phase enables maintainability test before prototyping physical products, and it is expected to reduce product development costs. The simulation results can be reused as contents of service manuals and RAM (Reliability, Availability, Maintainability) analysis data. Maintenance simulation should provide realistic representation of physical property of virtual product, assembly relation between parts and manipulation process to verify feasibility of product design. The simulation system should be extended to collaborative virtual environment to perform collaborative maintenance procedures. In this paper, the three layered system architecture and the physics based collaborative interaction technique are proposed to extend current maintenance simulation into collaborative virtual environment. The proposed system was implemented as ViMMS (Virtual Mockup Maintenance Simulation system), and compared with case study results of VADE (Virtual Assembly Design Environment). As a result, the ViMMS encompassed broader range of maintenance tasks by using physics based collaborative interaction technique.

Application of the Digital Mockup to Preliminary Analysis the Remote Maintainability of ACP

  • Song, Tai-Gil;Kim, Sung-Hyun;Park, Byung-Suk;Yoon, Ji-Sup;Lee, Sang-Ho
    • 제어로봇시스템학회:학술대회논문집
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    • 2004.08a
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    • pp.363-366
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    • 2004
  • KAERI is developing the Advanced Spent Fuel Conditioning Process (ACP) as a pre-disposal treatment process for spent fuel. In this process, the management process must operate in intense radiation fields as well as in a high temperature. Therefore, remote maintenance has played a significant role in this process. Hence suitable remote handling and maintenance technology needs to be developed along with the design of the process concepts. To do this, we developed the digital mockup for the ACP. The digital mockup provides the capability of verifying the remote operability of the process without fabrication of the process equipment. In other words, by applying virtual reality to the remote maintenance operation, a remote operation task can be simulated in the digital mockup. Through utilizing this graphic simulation in this digital mockup, general guidelines can be established for designing equipment intended for remote handling and maintenance. Also, the designer of the equipment that must be remotely maintained should ensure that there is adequate access to the process equipment. The graphic simulator will substantially reduce the cost of the develo363pment of the remote handling and maintenance procedure as well as the process equipment.

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PRIDE 3D Simulator for Virtual Verification of Remote Handling Procedures in Processing Cell (PRIDE 3D 시뮬레이터를 통한 공정셀 내부의 원격작업 가상검증)

  • Ryu, Dongseok;Han, Jonghui;Kim, Sunghyun;Kim, Kiho;Lee, Jong Kwang
    • Journal of Nuclear Fuel Cycle and Waste Technology(JNFCWT)
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    • v.15 no.4
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    • pp.333-341
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    • 2017
  • The Korea Atomic Energy Research Institute (KAERI) constructed the PyRoprocessing Integrated inactive Demonstration facility (PRIDE) to carry out experiments on engineering scale pyroprocessing. PRIDE has a large processing cell that human workers are not allowed to access, and thus the equipment inside is operated from outside using remote handling systems. It is therefore essential to examine the operability and maintainability of the equipment in view of remote handling systems, and the equipment is thoroughly examined in a mockup cell before it is installed in the processing cell. If the equipment is tested in a virtual mockup rather than in a mockup cell, the development cost can be significantly reduced. The PRIDE 3D simulator was integrated for virtual verification of equipment that will be installed in the processing cell. All remote handling devices in the actual PRIDE were also virtually installed in the PRIDE 3D simulator. The 3D model of the equipment was loaded and located in the exact position in the virtual processing cell. A scenario to replace an actual electrode was implemented in the PRIDE 3D simulator. The design of the equipment and the working procedures in the scenario were successfully evaluated. The results demonstrated that the PRIDE 3D simulator can be used successfully as an alternative to actual mockup testing.

Analysis of Remote Operation involved in Spent Nuclear Fuel Conditioning Process using its Virtual Mockup

  • Yoon, Ji-Sup;Kim, Sung-Hyun;Song, Tai-Gil
    • 제어로봇시스템학회:학술대회논문집
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    • 2004.08a
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    • pp.840-845
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    • 2004
  • The remote operation of the Advanced Spent Fuel Conditioning Process (ACP) is analyzed by using the 3D graphic simulation tools. Since the spent nuclear fuel, which is a high radioactive material, is processed in the ACP, the ACP equipment is operated in intense radiation fields as well as in a high temperature. Thus, the equipment is operated in a remote manner and should be designed with consideration for the remote handling and maintenance. Also suitable remote handling technology needs to be developed along with the design of the process concepts. For this we developed a graphic simulator, which provides the capability of verifying the remote operability of the ACP without the fabrication of the process equipment. In other words, by applying virtual reality to the remote maintenance operation, a remote operation task can be simulated in the graphic simulator, not in the real environment. The graphic simulator will substantially reduce the cost of the development of the remote handling and maintenance procedure as well as the process equipment, while at the same time developing a remote maintenance concept that is more reliable, easier to implement, and easier to understand.

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Development of the Interface Module for an Effective Application of a Digital Mockup

  • Song, Tai-Gil;Kim, Sung-Hyun;Lim, Gwang-Mook;Yoon, Ji-Sup;Lee, Sang-Ho
    • 제어로봇시스템학회:학술대회논문집
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    • 2005.06a
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    • pp.2407-2409
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    • 2005
  • As the cumulative amount of spent fuel increases, the reliable and effective management of the spent fuel has become a world-wide mission. For this mission, KAERI is developing the Advanced Spent Fuel Conditioning Process (ACP) as a pre-disposal treatment process for spent fuel. Conventional approach to the development of the process and the remote operation technology is to fabricate the process equipment on the same scale as the real environment and demonstrate the remote handling operation using simulated fuel called a mock-up test. But this mock-up test is expensive and time consuming, since the design may need to be modified and the equipment fabricated again to account for the problems found during a testing. To deal with this problem, we developed a digital mockup for the ACP. Also, for an effective utilization of the digital mockup, we developed user interface modules such as the data acquisition and display module and the external input device interface module. The result of this implementation shows that a continuous motion of the manipulator using the external device interface can be represented easily and the information display screens responded well to the simulation situation.

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Verification and Validation of Dynamic Clearance in Digital Mockup Using Engine Movement Roll Data (엔진 거동을 고려한 DMU(Digital Mockup)에서의 다이나믹 간격 검증)

  • Kim, Yong-Suk;Jang, Dong-Young
    • Transactions of the Korean Society of Automotive Engineers
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    • v.18 no.5
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    • pp.56-61
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    • 2010
  • This paper presents dynamic clearance verification considering engine movement for vehicle engine room package and validates through physical vehicle test. Traditionally, static clearance guide has been used for engine room package, but it's only 2-dimension criteria that results in requiring unnecessary space and it's not possible to conduct engine movement with real driving conditions. Thus, the dynamic DMU considers engine movement based on 28 load cases that are Roll Data analyzed by CAE for maximum engine movement and visualizes part-to-part dynamic clearance into virtual space. The dynamic DMU enables to develop compact engine room package without unnecessary space. The result of comparison between simulation and physical test has 0.892 correlation coefficient.

Collaborative Design Review in Virtual Environment (가상환경에서의 디자인 품평 협업)

  • Bu, So-Young;Boehm, Stefan;Portela, Miguel;Jo, Hyun-Jei
    • Proceedings of the Korean Information Science Society Conference
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    • 2007.06c
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    • pp.229-232
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    • 2007
  • 본 논문에서는 제품 공정에서 스타일링과 디자인 과정에서 제작하게 되는 다양한 재질의 Digital-Mockup을 품평하기 위한 시스템을 제안한다. 타일드 디스플레이, 워크벤치, 혼합현실 디스플레이, 데스크탑 디스플레이와 같은 여러 가상 환경에서의 다자간 연결을 통해 원거리 참여자들이 공유된 시각 작업공간상에서 원활한 협업을 수행할 수 있도록 지원한다. 또한 모바일을 이용하여 씬-그래프(scenegraph)에 나타나는 3차원 제품 모델의 재질 정보를 실시간으로 변경이 가능하다.

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Rapid and Tangible Method of Product Design using Augmented Reality Technology (증강 현실을 이용한 산업 제품의 빠르고 효과적인 디자인 방법)

  • Jin, Yoon-Suk;Kim, Yang-Wook;Kim, Bo-Mi;Park, Jun
    • 한국HCI학회:학술대회논문집
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    • 2008.02a
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    • pp.55-58
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    • 2008
  • Designers, who design industry products, use CAD(Computer Aided Design) tools for making new design and looking around virtual 3D models. Hand-drawings and sketches show only one viewpoint limiting 3D perception. However, CAD system that provides automation and multiple view points, can help to save time and cost. Accordingly, we developed Augmented Reality(AR) and Rapid Prototyping(RP) based product design system that is interactive and realistic This AR based design system utilize mockups that are made of urethane and styrofoam where as users change 3D model's color, texture and user interface. These interactive ways help to evaluate design more instinctively.

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Development of a DMU System Operated on a PDM System (PDM 시스템에서 운용되는 DMU 시스템 개발)

  • 이강수;이상헌
    • Korean Journal of Computational Design and Engineering
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    • v.8 no.3
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    • pp.157-166
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    • 2003
  • In this paper, we explain the DMU (digital mockup) system based on the PDM system. Most manufacturing companies are trying to develop a competitive product by increasing the quality, shortening time to market (TIM) and reducing the cost of a product. Some technologies such as SE (System Engineering), CE (Concurrent Engineering), QFD (Quality Function Development), CI (Cost Innovation) and some systems such as CAD (Computer-Aided Design), CAE (Computer-Aided Engineering), CAM (Computer-Aided Manufacturing), PDM (Product Data Management) and visualization system are adopted for these purposes. Specially, DMU system utilizes a visualization system that shows the 3D shape of a product on the computer and it gives a quick intuition to a person whether he/she is an engineer or not. It also can induce the effects of CE and QFD. SO, 0 company is developing a DMU system integrating CAD, visualization and PDM system. The main feature of the developed DMU system is that it is entirely integrated with PDM system, which means that the 3D shape of any part or assembly can be retrieved through PDM system. The DMU system will change the development process, which will increase the competitiveness of a developed product.