Automatic non-destructive UAV-based structural health monitoring of steel container cranes

IF 2.3 Q2 REMOTE SENSING

Applied Geomatics Pub Date : 2023-12-20 DOI:10.1007/s12518-023-00542-7

Vanessa De Arriba López, Mehdi Maboudi, Pedro Achanccaray, Markus Gerke

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引用次数: 0

Abstract

Container cranes are of key importance for maritime cargo transportation. The uninterrupted and all-day operation of these container cranes, which directly affects the efficiency of the port, necessitates the continuous inspection of these massive hoisting steel structures. Due to the large size of cranes, the current manual inspections performed by expert climbers are costly, risky, and time-consuming. This motivates further investigations on automated non-destructive approaches for the remote inspection of fatigue-prone parts of cranes. In this paper, we investigate the effectiveness of color space-based and deep learning-based approaches for separating the foreground crane parts from the whole image. Subsequently, three different ML-based algorithms (k-Nearest Neighbors, Random Forest, and Naive Bayes) are employed to detect the rust and repainting areas from detected foreground parts of the crane body. Qualitative and quantitative comparisons of the results of these approaches were conducted. While quantitative evaluation of pixel-based analysis reveals the superiority of the k-Nearest Neighbors algorithm in our experiments, the potential of Random Forest and Naive Bayes for region-based analysis of the defect is highlighted.

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基于无人机的钢制集装箱起重机结构健康自动无损监测

集装箱起重机对于海上货物运输至关重要。这些集装箱起重机的全天候不间断运行直接影响着港口的效率，因此有必要对这些巨大的起重钢结构进行持续检查。由于起重机体积庞大，目前由专业攀爬人员进行的人工检查成本高、风险大、耗时长。这促使我们进一步研究对起重机易疲劳部件进行远程检测的自动化无损方法。在本文中，我们研究了基于色彩空间和深度学习的方法从整个图像中分离前景起重机部件的有效性。随后，我们采用了三种不同的基于 ML 的算法（k-Nearest Neighbors、Random Forest 和 Naive Bayes），从检测到的起重机机身前景部分中检测锈蚀和重新喷漆区域。对这些方法的结果进行了定性和定量比较。基于像素分析的定量评估表明，在我们的实验中，k-近邻算法更胜一筹，而随机森林和 Naive Bayes 在基于区域的缺陷分析方面的潜力则更加突出。

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

Applied Geomatics REMOTE SENSING-

CiteScore

5.40

自引率

3.70%

发文量

期刊介绍： Applied Geomatics (AGMJ) is the official journal of SIFET the Italian Society of Photogrammetry and Topography and covers all aspects and information on scientific and technical advances in the geomatics sciences. The Journal publishes innovative contributions in geomatics applications ranging from the integration of instruments, methodologies and technologies and their use in the environmental sciences, engineering and other natural sciences. The areas of interest include many research fields such as: remote sensing, close range and videometric photogrammetry, image analysis, digital mapping, land and geographic information systems, geographic information science, integrated geodesy, spatial data analysis, heritage recording; network adjustment and numerical processes. Furthermore, Applied Geomatics is open to articles from all areas of deformation measurements and analysis, structural engineering, mechanical engineering and all trends in earth and planetary survey science and space technology. The Journal also contains notices of conferences and international workshops, industry news, and information on new products. It provides a useful forum for professional and academic scientists involved in geomatics science and technology. Information on Open Research Funding and Support may be found here: https://www.springernature.com/gp/open-research/institutional-agreements