International Journal of Internet, Broadcasting and Communication

The Institute of Internet, Broadcasting and Communication (한국인터넷방송통신학회)
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A Study on Optimized Mapping Environment for Real-time Spatial Mapping of HoloLens

  • Hwang, Leehwan (Graduate School of Information and Contents, Kwangwoon University) ;
  • Lee, Jaehyun (Graduate School of Information and Contents, Kwangwoon University) ;
  • Hafeez, Jahanzeb (Graduate School of Information and Contents, Kwangwoon University) ;
  • Kang, Jinwook (Geminisoft Co., Ltd.) ;
  • Lee, Seunghyun (Graduate School of Information and Contents, Kwangwoon University) ;
  • Kwon, Soonchul (Graduate School of Information and Contents, Kwangwoon University)
  • Received : 2017.05.15
  • Accepted : 2017.06.05
  • Published : 2017.08.31
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Abstract

Recently, the development of the head mounted display (HMD) device has attracted a great deal of attention to the actual contents. Especially, Augmented Reality (AR), which is a mixture of actual information and virtual world information, is focused on. AR HMD is able to interact by arranging virtual objects in real space through spatial recognition using depth camera. In order to naturally mix virtual space with real space, it is necessary to develop a technology for realizing spatial mapping information with high accuracy. The purpose of this paper is to evaluate the optimal configuration of augmented reality application program by realizing accurate spatial mapping information when mapping a real space and an object placement environment using HoloLens. To do this, we changed the spatial mapping information in real space to three levels, which are the number of meshes used in cubic meters to scan step by step. After that, it was compared with the 3D model obtained by changing the actual space and mesh number. Experimental result shows that the higher the number of meshes used in cubic meters, the higher the accuracy between real space and spatial mapping. This paper is expected to be applied to augmented reality application programs that require scanning of highly mapped spatial mapping information.

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References

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