3D concept creation of permanent geodetic monitoring installations and the a priori assessment of systematic effects using Virtual Reality

IF 1.2 Q4 REMOTE SENSING
P. Bauer, W. Lienhart
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引用次数: 1

Abstract

Abstract Logistic processes of construction sites are transferred into virtual and full 3D environments to increase the interoperability for all project partners. These digital twins are emerging for the construction process of modern building processes and are already designed to be used for the operation of the building afterwards. In structural health monitoring (SHM) the sensor installations are also designed to monitor the structure over its whole lifespan. Therefore, the embedding process and the operation of the sensor systems and the Building Information Modelling (BIM) have overlapping long-term goals. Beside these 3D software advances in civil engineering, the working environments in the field of geodesy still follow more established approaches. In many cases using only 2D CAD plans and on-site visits at the existing structure are best practice for the design of geodetic monitoring installations. This paper describes the improvement of the concept creation of permanent monitoring systems with geodetic total stations in an interactive virtual 3D environment. The simulated instruments are behaving according to their specification data and are linked with a physics engine to automatically detect common problems in a network design like obstructed line of sights, disadvantageous incidence angles at the targets or automatic aiming issues due to multiple targets in the field of view. Furthermore, the Virtual Reality (VR) technology is introduced as a user interface for a virtual 3D planning environment. The functionality of the developed VR application is tested in a real-life use case for the feasibility study of the automatic monitoring of a railway tunnel.
永久性大地测量监测装置的3D概念创建和使用虚拟现实的系统效果的先验评估
摘要建筑工地的物流过程被转移到虚拟和全三维环境中,以增加所有项目合作伙伴的互操作性。这些数字双胞胎是在现代建筑过程的施工过程中出现的,并且已经被设计用于建筑的后续操作。在结构健康监测(SHM)中,传感器装置也被设计用于监测结构的整个使用寿命。因此,传感器系统和建筑信息模型(BIM)的嵌入过程和运行具有重叠的长期目标。除了土木工程领域的这些3D软件进步之外,大地测量领域的工作环境仍然遵循更成熟的方法。在许多情况下,仅使用二维CAD图和实地考察现有结构是设计大地测量监测装置的最佳做法。本文介绍了在交互式虚拟三维环境中对大地测量全站仪永久监测系统概念创建的改进。模拟仪器按照其规格数据工作,并与物理引擎相连接,自动检测网络设计中的常见问题,如视线受阻、目标入射角不利或视场内多个目标导致的自动瞄准问题。此外,还介绍了虚拟现实(VR)技术作为虚拟三维规划环境的用户界面。开发的VR应用程序的功能在现实生活用例中进行了测试,用于铁路隧道自动监控的可行性研究。
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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来源期刊
Journal of Applied Geodesy
Journal of Applied Geodesy REMOTE SENSING-
CiteScore
2.30
自引率
7.10%
发文量
30
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