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This paper presents a development of a hybrid Mixed Reality visualization system using location-based and marker-based methods. The Microsoft Hololens 2 is employed for the MR device. In open-sky environment, location-based method was used for the superimposition method. To obtain location information, GNSS (Global Navigation Satellite System) receivers are used, which can obtain highly accurate location information by network RTK positioning at open-sky environment. The system is capable of superimposed 3D models into real space accurately and automatically. Also, by allowing the switch to marker-based method, this system can be applied to non-open-sky environment. The present system is applied to the visualization of underwater objects in order to check the validity and effectiveness.
 
This paper presents a development of a hybrid Mixed Reality visualization system using location-based and marker-based methods. The Microsoft Hololens 2 is employed for the MR device. In open-sky environment, location-based method was used for the superimposition method. To obtain location information, GNSS (Global Navigation Satellite System) receivers are used, which can obtain highly accurate location information by network RTK positioning at open-sky environment. The system is capable of superimposed 3D models into real space accurately and automatically. Also, by allowing the switch to marker-based method, this system can be applied to non-open-sky environment. The present system is applied to the visualization of underwater objects in order to check the validity and effectiveness.
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== Full Paper ==
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<pdf>Media:Draft_Sanchez Pinedo_563409802108.pdf</pdf>

Revision as of 12:26, 1 July 2024

Abstract

This paper presents a development of a hybrid Mixed Reality visualization system using location-based and marker-based methods. The Microsoft Hololens 2 is employed for the MR device. In open-sky environment, location-based method was used for the superimposition method. To obtain location information, GNSS (Global Navigation Satellite System) receivers are used, which can obtain highly accurate location information by network RTK positioning at open-sky environment. The system is capable of superimposed 3D models into real space accurately and automatically. Also, by allowing the switch to marker-based method, this system can be applied to non-open-sky environment. The present system is applied to the visualization of underwater objects in order to check the validity and effectiveness.

Full Paper

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Document information

Published on 01/07/24
Accepted on 01/07/24
Submitted on 01/07/24

Volume Software and High Performance Computing, 2024
DOI: 10.23967/wccm.2024.108
Licence: CC BY-NC-SA license

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