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3차원 공간 정보 모델의 영상 산업에서의 적용 가능성에 대한 고찰
조상환,이보아 한국디지털콘텐츠학회 2019 한국디지털콘텐츠학회논문지 Vol.20 No.10
With the objective of assessing the possible applications of V-World, in the film industry, this study reviews 3D spatial information model development projects both inside and outside Korea, examples of films produced outside Korea using 3D spatial information, and examples of Korean films that incorporate CG based on 3D spatial information. As a result, V-World currently serves largely as a means of viewing spatial information. One way to overcome this limitation is to develop other interoperable platforms and enhance connections with external data, with the aim of establishing a larger and integrated platform of national spatial information. V-World is a useful tool in the film industry, as it can reduce production costs and increase the efficiency of filming budget execution, in addition to realism of their films and maximize the immersive experience for audiences in general by improving the quality of films. 본 연구는 브이월드의 영상 산업 분야에서의 활용 가능성을 진단하기 위해, 국내·외 3차원 공간 정보 모델 구축 사업, 3차원 공간 정보를 활용한 국외 영화 사례, 3차원 공간 정보를 CG 작업으로 제작한 국내 영화 사례를 검토했다. 본 연구 결과 브이월드가 국가 지리 정보 뷰어로서 기능에 집중, 이러한 문제점을 해결하기 위해 상호 운용 플랫폼의 개발 및 외부 데이터와의 연계를 통한 국가 공간 정보 통합 플랫폼의 구축이 요구된다. 브이월드는 영화 제작비 절감 및 예산 집행의 효율성 증진 등의 유의미한 산업적 파급효과 등 영상의 질적 완성도 한 단계 향상, 관객들에게는 몰입적 경험을 제공해 줄 것이다.
연성 개폐식 구조물 케이블 설치 위치 검증을 위한 드론 활용방안
조한광(Cho, Hankwang),권나현(Nahyun Kwon),김상환(Kim, Sangwan),조재윤(Cho, Jaeyoun),안용한(Yonghan Ahn) 한국퍼실리티매니지먼트학회 2020 한국퍼실리티매니지먼트학회지 Vol.15 No.2
Indoor gymnasiums and dome stadiums are mostly made of fixed hard structures, which leads to economic loss due to the continuous operation of ventilation and lighting equipment. When the roof of a large space is installed by retractable method, it secures comfortable environment by natural light during the daytime and reduces ventilation costs. The retractable spaces can be constructed in hard and soft structures. In the case of soft structures, cables and membrane are the primary components. In order to install the cables, it is necessary to determine the location of the central part where each cable meets. However, the existing approach depending on only some workers shows a limited ability in investigating the appropriateness of the installed cables. Therefore, this study aims to propose a method to determine the installation location of the soft retractable structure cables based on the numerical data derived from drones. Factors that can inspect the construction quality of cables and membrane materials in the construction stage and construction completion stage were identified. Based on the construction guidelines of the Ministry of Land, Infrastructure and Transport of Korea (MOLIT), standard specifications, and relevant similar cases, the applicability of the method using the numerical data of the drone was investigated.