Efficient bundle optimization for accurate camera pose estimation in mobile augmented reality systems

IF 3.7 3区地球科学 Q2 ENVIRONMENTAL SCIENCES Egyptian Journal of Remote Sensing and Space Sciences Pub Date : 2024-11-16 DOI:10.1016/j.ejrs.2024.10.006

Shanglin Li , Yalan Li , Yulin Lan , Anping Lin

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Abstract

Augmented reality has a long research history in computer vision and computer graphics communities. It aims to enhance the user experience for real scenes via overlapping virtual objects. Nowadays, mobile augmented reality has attracted much attention from researchers and developers due to the development of hardware techniques. Modern mobile devices such as mobile phones have a powerful computational ability for augmented reality applications. As a result, many researchers have paid attention to mobile augmented reality. From the technical viewpoint of augmented reality, mobile augmented reality largely depends on camera pose estimation. However, existing methods make it difficult to achieve the best balance between accuracy and efficiency, according to our investigation, and this may handicap the performance of mobile augmented reality systems. To overcome the problem, in this paper, we propose a novel approach to camera pose estimation based on bundle optimization. Our proposed method is evaluated on real-world datasets and is also tested in the mobile augmented reality system. Both experiments demonstrate that our proposed method has fast speed and high accuracy.

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在移动增强现实系统中进行高效的捆绑优化，以实现精确的相机姿态估计

增强现实技术在计算机视觉和计算机图形学领域有着悠久的研究历史。其目的是通过重叠虚拟对象来增强用户对真实场景的体验。如今，由于硬件技术的发展，移动增强现实技术已经引起了研究人员和开发人员的广泛关注。手机等现代移动设备具有强大的计算能力，可用于增强现实应用。因此，许多研究人员开始关注移动增强现实技术。从增强现实的技术角度来看，移动增强现实在很大程度上取决于相机姿态估计。然而，根据我们的调查，现有的方法很难在精度和效率之间取得最佳平衡，这可能会影响移动增强现实系统的性能。为了解决这个问题，我们在本文中提出了一种基于捆绑优化的新型摄像机姿态估计方法。我们提出的方法在真实世界数据集上进行了评估，并在移动增强现实系统中进行了测试。这两项实验都证明了我们提出的方法速度快、精度高。

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来源期刊

Egyptian Journal of Remote Sensing and Space Sciences Multiple-

CiteScore

8.10

自引率

0.00%

发文量

审稿时长

48 weeks

期刊介绍： The Egyptian Journal of Remote Sensing and Space Sciences (EJRS) encompasses a comprehensive range of topics within Remote Sensing, Geographic Information Systems (GIS), planetary geology, and space technology development, including theories, applications, and modeling. EJRS aims to disseminate high-quality, peer-reviewed research focusing on the advancement of remote sensing and GIS technologies and their practical applications for effective planning, sustainable development, and environmental resource conservation. The journal particularly welcomes innovative papers with broad scientific appeal.