• 디지털콘텐츠학회 논문지
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• 제18권8호
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• pp.1585-1591
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• 2017

본 연구에서는 전시공간에서 가상환경 기술을 적용한 전시 콘텐츠의 적용을 제안한다. 가상환경에 대한 연구는 지속적으로 이루어지고 있다. 특히, 가상현실 기술의 연구는 가장 활발하게 이루어지는 연구 분야 중 하나이다. 스마트폰의 보급으로 증강현실 기술의 연구와 개발이 이루어지면서 가상현실 기술에 대한 연구도 게임과 상호작용성에 중점을 두고 많은 발전을 이루고 있다. 특히 올해에는 다양한 강상현실 체험 장비들 특히 HMD(Head Mounted Device) 장비의 개발과 신제품 발표 등 하드웨어와 소프트웨어 그리고 콘텐츠 분야의 발전이 더욱 가속화 되고 있다. 우리는 이러한 가상현실 기술 기반의 시스템이 전시공간에서 사용자에게 더욱 친근하게 다가가고 경험할 수 있는 환경을 연구하고 적용하고자 한다.

• 문화기술의 융합
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• 제7권2호
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• pp.333-338
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• 2021

5세대 이동통신 기술의 발전은 이상(理想)적 초연결 사회 정보통신기술(ICT)을 가시화하고 있다. 특히 가상현실(VR)기술은 새로운 확장과 도약의 출발점에 놓여있다. 본 연구는 이러한 맥락에서 가상현실을 미디어로 규정하고, 공간과 소통이론을 중심으로 그 확장성에 대한 담론들을 수집·분석(thematic literature review)하였다. 먼저 1990년 가상현실 개념의 초기 논의들을 시작으로 개념을 정교화하였으며, 물리적 세계와 디지털 정보의 관계, 매체로서 표현과 상호작용 몰입감, 시뮬레이션, 예술창작론, 그리고 마지막으로 진화적 발전방향에 대해 논의하였다. 결론적으로 가상현실의 기술에 대한 담론들을 넘어 학술적 대상으로 가상현실의 발전과 진화를 위해 인지과학, 신경과학, 사회과학, 그리고 인문학적 쟁점(윤리, 인격 등)에 대한 이론적 프레임워크가 요구됨을 필역하였다. 즉, 가(假)를 넘어 가(加)로 넘어갈 수 있는 가상현실 진화가 논의될 시점이다.

• 한국건축시공학회:학술대회논문집
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• 한국건축시공학회 2019년도 춘계 학술논문 발표대회
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• pp.224-225
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• 2019

Virtual reality technology can be defined as human-computer interface that makes virtual place of specific environments or situation is an interactive computer-generated experience taking place within a simulated environment. In order to combine virtual reality technology of domestic nuclear power industry, the R&D Project has been developing a virtual/augment reality system for nuclear power plant from April 2018 to March 2021. To effectively apply virtual reality technology of domestic nuclear industry, it is necessary to build virtual space similar to real environment. Therefore, This study is analysed 3d model status for nuclear power plant during the life-cycle, and suggested a method to build 3D cad model close to real environment.

• Architectural research
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• 제22권4호
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• pp.155-162
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• 2020

Numerous scholars have explored the modeling, control, and optimization of energy systems in buildings, offering new insights about technology and environments that can advance industry innovation. Eye trackers deliver objective eye-gaze data about visual and attentional processes. Due to its flexibility, accuracy, and efficiency in research, eye tracking has a control scheme that makes measuring rapid eye movement in three-dimensional space possible (e.g., virtual reality, augmented reality). Because eye movement is an effective modality for digital interaction with a virtual environment, tracking how users scan a visual field and fix on various digital objects can help designers optimize building environments and materials. Although several scholars have conducted Virtual Reality studies in three-dimensional space, scholars have not agreed on a consistent way to analyze eye tracking data. We conducted eye tracking experiments using objects in three-dimensional space to find an objective way to process quantitative visual data. By applying a 12 × 12 grid framework for eye tracking analysis, we investigated how people gazed at objects in a virtual space wearing a headmounted display. The findings provide an empirical base for a standardized protocol for analyzing eye tracking data in the context of virtual environments.

• 한국안전학회지
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• 제24권6호
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• pp.1-6
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• 2009

This study describes a construction procedure of 3D virtual space using the NGIS data and its application to simulation. 3D space topography is modeled by using DEM consisted with triangular regular network. The elevations of nodal points of DEM are calculated through the interpolation with contour line and elevation points from the NGIS. Also, data for 2D roads and their environments, such as trees, lamps, and traffic signals, were extracted from the NGIS and projected on the DEM surfaces to get 3D virtual space. To give a reality to 3D virtual space and accelerate its graphic speed, data were converted into the directX format. It is believed that the virtual space constructed in this work can be applicable to the ubiqutous because DEM data can be converted to the AutoCAD format and ASCII code.

• 한국기계가공학회지
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• 제17권6호
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• pp.136-143
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• 2018

Recently, with the rapid development of virtual reality technology, there have been more and more applications of virtual reality technology in various fields. In order to realize a virtual reality, a method of implementing a visualization environment through an HMD (Head Mounted Display) is widely used. However, in the current visualization environment through the HMD, the user feels dizziness when worn, It has the disadvantage of imposing restrictions on. In this study, it is aimed to realize virtual reality visualization environment through multi-screen environment which improves the experience effect of virtual environment by using existing screen instead of visualization through HMD, and compensates for shortcomings of HMD method. In order to realize a multi-screen environment as a highly visualized environment, a technique for matching the spatial position of the multi-screen with the spatial position of the virtual environment is required. To do this, we need an efficient method to precisely measure the position of the space, and we propose a spatial position compensation methodology that can efficiently and precisely measure the position of the real space and reflect it in the virtual environment.

• 한국멀티미디어학회논문지
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• 제25권8호
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• pp.1175-1187
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• 2022

3D interaction between humans and computers has been possible with the popularization of virtual reality, and it is important to study natural and efficient virtual reality user interfaces. In user interface development, it is essential to analyze and evaluate user factors. In order to analyze the influence of factors on users who use the virtual reality color picker, this paper divides the user groups based on whether they major in art or design, whether they have experience in virtual reality, and whether they have prior knowledge about 3D color space. The color selection error and color selection time of all user groups were compared and analyzed. Although there were statistically significant differences according to the user groups, all user groups used the virtual reality color picker accurately and effectively without any difficulties.

• 한국실내디자인학회논문집
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• 제15권5호
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• pp.306-313
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• 2006

Digital simulation which was introduced to the architectural field due to the rapid growth of computer graphics, gave birth to a new type of contents called 'virtual reality', led by the interaction with the users and real time processing. The public attention is drawn to the virtual reality's potential as a next generational space simulation it, having the unique characteristics of 'simulation', 'interactivity', 'tole-presence', and 'immersion', is capable of taking a virtual tour of a space with a size equivalent to that of a real space, as well as proceeding with the design progress. Nonetheless, many problems impeding CPU's real time processing of an excessively loaded architectural model data have been pinpointed over the time. Yet such GPU based game engines as 'DirectX' and 'OpenGL', developed to deal with these impediments, have not been easily applied to the architectural simulation in the design process, due to the high license cost and the specific technical requirements for the system. The virtual reality has been developed and distributed centering around the gaming field, and game developers recently show a greater tendency to include level editors in the package for the expandability purpose. Thus, we plan to propose architecture simulation which utilizes level editors in this study. In addition, the compatibility of the game engine based level editors of Quake and Unreal which form the standards for the open source FPS games, based on VRML, the standard format for the virtual reality, was compared and analyzed. Taking the example of Villa Savoye of Le Corbusier, its application possibility as an architecture simulation was assessed, by measuring the extent to which the performance of such characteristic features of the virtual reality as interactivity, immersion, and tele-presence, was improved.

• Journal of Information Technology Applications and Management
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• 제28권3호
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• pp.59-75
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• 2021

This study aims to establish a foundation for autonomous driving on campus and communication of abundant university information in the HCI environment in a VR environment where college freshmen can freely travel around campus facilities. The purpose of this study is to develop a three-dimensional VR-style campus tour system to establish a media environment to provide abundant university information guidance services to freshmen in non-face-to-face situations. This study designed a three-dimensional virtual reality campus tour system to solve the problem of discontinuity in which VR360 filming space does not lead to space like reality, and to solve many problems of expertise in VR technology by constructing an integrated production environment of tour system. We aim to solve the problem of inefficiency, which requires a large amount of momentum in virtual space, by constructing a GUI that utilizes the motion of the field of view focus. The campus environment was designed as a three-dimensional virtual reality using a three-dimensional graphic design. In non-face-to-face situations, college freshmen freely transformed the HMD VR device, smartphone, FPS operation mode of the gyroscope sensor. The design elements of the three-dimensional virtual reality campus tour system were classified as ①Visualization of factual experiences, ②Continuity of space movement, ③Operation, automatic operation mode, ④Natural landscape animation, ⑤Animation according to wind direction, ⑥Actual space movement mode, ⑦Informatization of spatial understanding, ⑧GUI by experience environment, ⑨Text GUI by building, ⑩VR360, 3D360 Studio Environment, ⑪Three-dimensional virtual space coupling block module, ⑫3D360-3D Virtual Space Transmedia Zone, ⑬Transformable GUI(VR Device Dual Viewer-Gyro Sensor Full Viewer-FPS Operation Viewer) and an integrated production environment was established with each element. It is launched online (http://vautu.com/u1) by constructing a GUI for free driving mode and college information screens to adapt to college life for freshmen, and designing an environment that can be used simultaneously by current media such as PCs, Android, and iPads. Therefore, it conducted user research, held a development presentation, a forum on excellence in university innovation support projects, and applied it as a system on the website of a particular university. College freshmen will be able to experience university information directly from the web and app to the virtual reality campus environment.

• 문화기술의 융합
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• 제4권4호
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• pp.309-316
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• 2018

본 연구에서는 실제와 같은 가상발표환경을 구현하여 실전에서 자신감 있게 발표할 수 있도록 도와주기 위한 3D 가상현실기반의 발표훈련시스템을 제안한다. 제안시스템은 발표자의 음성과 행동을 실시간으로 분석하여 가상공간의 청중들에게 반영되게 함으로서 사실감 있고 몰입도 높은 발표 및 면접 환경을 제공하였다. 발표자는 6DOF Tracking이 되는 HMD와 VR Controller를 착용하고 Kinect를 이용하여 가상공간 속에서의 시점 변화 및 인터랙션을 줄 수 있으며 가상공간은 사용자가 설정한 다양한 환경으로 변경이 가능하도록 하였다. 발표자는 가상공간 속에 별도로 제공되는 뷰에 표시된 프리젠테이션 파일 및 스크립트를 보며 내용 숙지 및 발표 숙달 연습을 하게 된다.