A mobile robot for monitoring floor flatness in real-time

IF 1.2 Q4 REMOTE SENSING Journal of Applied Geodesy Pub Date : 2022-12-05 DOI:10.1515/jag-2022-0046
C. Naab
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Abstract

Abstract As part of the structural inspection, compliance with the specified flatness tolerances according to DIN (in particular DIN 18202:2019-07) has to be checked. Today, the monitoring of the flatness is carried out mainly with levelling instruments and tacheometers. However, these measuring methods are time-consuming, as stacking out the measuring grid and capturing the heights are performed manually. In addition, the data evaluation must be done in a separate work step. Therefore, we developed the mobile robot RITA for height measurement in combination with a stationary tacheometer. Now, the entire process of flatness control is carried out automatically, and heights are recorded reliably in real-time. For practicality, we developed a compact design of the mobile robot in combination with hardware modules. Our reflector tracking unit makes it possible to follow the reflector on the robotic platform in order to maintain the line of sight to the tacheometer. Furthermore, our mechanical pendulum unit ensures that the height measurement is always carried out vertically, even if the robot itself is tilted. Initial practical tests have shown that the high demands on the robotic platform are met and that the implementation of the flatness control can be automated. For that, investigations concerning the location accuracy of the robot were carried out, and the height measurement was validated. It turns out, that demands in the lowest millimeter range are fulfilled. Overall, these tests showed the enormous gain in performance due to the newly developed height measurement robot compared to the previous slow, complex, and tiring manual process.
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一种实时监测地板平整度的移动机器人
摘要作为结构检查的一部分,必须检查是否符合DIN(特别是DIN 18202:2019-07)规定的平面度公差。如今,平面度的监测主要是用水准仪和转速表进行的。然而,这些测量方法是耗时的,因为堆叠测量网格和捕捉高度是手动执行的。此外,数据评估必须在单独的工作步骤中完成。因此,我们开发了用于高度测量的移动机器人RITA,该机器人与固定测速仪相结合。现在,平面度控制的整个过程都是自动进行的,并且高度被可靠地实时记录。为了实用,我们结合硬件模块开发了一个紧凑的移动机器人设计。我们的反射器跟踪单元可以跟踪机器人平台上的反射器,以保持转速表的视线。此外,我们的机械摆单元确保高度测量始终垂直进行,即使机器人本身倾斜。初步的实际测试表明,满足了对机器人平台的高要求,平面度控制的实现是自动化的。为此,对机器人的定位精度进行了研究,并对高度测量进行了验证。事实证明,在最低毫米范围内的需求得到了满足。总的来说,这些测试表明,与以前缓慢、复杂和疲惫的手动过程相比,新开发的高度测量机器人在性能上有了巨大的提高。
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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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