Publikation: 3D Curve Creation on and Around Physical Objects With Mobile AR
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2022
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IEEE transactions on visualization and computer graphics. Institute of Electrical and Electronics Engineers (IEEE). 2022, 28(8), pp. 2809-2821. ISSN 1077-2626. eISSN 1941-0506. Available under: doi: 10.1109/TVCG.2020.3049006
Zusammenfassung
The recent advance in motion tracking (e.g., Visual Inertial Odometry) allows the use of a mobile phone as a 3D pen, thus significantly benefiting various mobile Augmented Reality (AR) applications based on 3D curve creation. However, when creating 3D curves on and around physical objects with mobile AR, tracking might be less robust or even lost due to camera occlusion or textureless scenes. This motivates us to study how to achieve natural interaction with minimum tracking errors during close interaction between a mobile phone and physical objects. To this end, we contribute an elicitation study on input point and phone grip, and a quantitative study on tracking errors. Based on the results, we present a system for direct 3D drawing with an AR-enabled mobile phone as a 3D pen, and interactive correction of 3D curves with tracking errors in mobile AR. We demonstrate the usefulness and effectiveness of our system for two applications: in-situ 3D drawing, and direct 3D measurement.
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YE, Hui, Kin Chung KWAN, Hongbo FU, 2022. 3D Curve Creation on and Around Physical Objects With Mobile AR. In: IEEE transactions on visualization and computer graphics. Institute of Electrical and Electronics Engineers (IEEE). 2022, 28(8), pp. 2809-2821. ISSN 1077-2626. eISSN 1941-0506. Available under: doi: 10.1109/TVCG.2020.3049006BibTex
@article{Ye2022-08Curve-58074,
year={2022},
doi={10.1109/TVCG.2020.3049006},
title={3D Curve Creation on and Around Physical Objects With Mobile AR},
number={8},
volume={28},
issn={1077-2626},
journal={IEEE transactions on visualization and computer graphics},
pages={2809--2821},
author={Ye, Hui and Kwan, Kin Chung and Fu, Hongbo}
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<dcterms:abstract xml:lang="eng">The recent advance in motion tracking (e.g., Visual Inertial Odometry) allows the use of a mobile phone as a 3D pen, thus significantly benefiting various mobile Augmented Reality (AR) applications based on 3D curve creation. However, when creating 3D curves on and around physical objects with mobile AR, tracking might be less robust or even lost due to camera occlusion or textureless scenes. This motivates us to study how to achieve natural interaction with minimum tracking errors during close interaction between a mobile phone and physical objects. To this end, we contribute an elicitation study on input point and phone grip, and a quantitative study on tracking errors. Based on the results, we present a system for direct 3D drawing with an AR-enabled mobile phone as a 3D pen, and interactive correction of 3D curves with tracking errors in mobile AR. We demonstrate the usefulness and effectiveness of our system for two applications: in-situ 3D drawing, and direct 3D measurement.</dcterms:abstract>
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