Digital Twin Registration Technique of Spatial Augmented Reality for Tangible Interaction

Q3 Computer Science

计算机辅助设计与图形学学报 Pub Date : 2021-05-01 DOI:10.3724/sp.j.1089.2021.18556

Zhigeng Pan, Jiali Gao, Ruonan Wang, Qingshu Yuan, Ran Fan, Ling She

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引用次数: 5

Abstract

: In spatial augmented reality (SAR) systems supporting tangible interaction, user interactions can cause rapid changes in orientation and position of interaction objects. To ensure the efficiency and accuracy of registration during objects movements, a digital twin registration technique for SAR is proposed. Models are made in the digital space and their geometric parameters are entirely consistent with the objects in the physical space. The orientation and position parameters of the physical objects are tracked in real-time during user interaction. Then the digital objects are adjusted according the parameters. Moreover, intrinsic and extrinsic parameters of the pro-jector, which are calibrated in advance, are used to set the virtual camera in the digital space. The projection pat-terns are rendered in that virtual camera and then projected onto the interaction objects. The efficiency and accuracy are evaluated in the middle school physical experiment learning magnetic induction line based on the projection interaction tabletop, which meet the requirements of tangible interaction in SAR systems.

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用于有形交互的空间增强现实数字孪生配准技术

在支持有形交互的空间增强现实(SAR)系统中，用户交互可以导致交互对象的方向和位置的快速变化。为了保证目标运动过程中配准的效率和准确性，提出了一种SAR数字孪生配准技术。模型是在数字空间中制作的，其几何参数与物理空间中的物体完全一致。在用户交互过程中实时跟踪物理对象的方向和位置参数。然后根据参数调整数字对象。此外，利用事先标定好的投影仪的内外参数，在数字空间中设置虚拟摄像机。投影模式在虚拟摄像机中呈现，然后投影到交互对象上。通过对基于投影交互桌面的中学物理实验学习磁感应线的效率和准确性进行评价，满足SAR系统中有形交互的要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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