Mapping damages from inspection images to 3D digital twins of large‐scale structures

Hans‐Henrik von Benzon, Xiao Chen
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Abstract

This study develops a methodology to create detailed visual Digital Twins of large‐scale structures with their realistic damages detected from visual inspection or nondestructive testing. The methodology is demonstrated with a transition piece of an offshore wind turbine and a composite rotor blade, with surface paint damage and subsurface delamination damage, respectively. Artificial Intelligence and color threshold segmentation are used to classify and localize damages from optical images taken by drones. These damages are digitalized and mapped to a 3D geometry reconstruction of the large‐scale structure or a CAD model of the structure. To map the images from 2D to 3D, metadata information is combined with the geo placement of the large‐scale structure's 3D model. The 3D model can here both be a CAD model of the structure or a 3D reconstruction based on photogrammetry. After mapping the damage, the Digital Twin gives an accurate representation of the structure. The location, shape, and size of the damage are visible on the Digital Twin. The demonstrated methodology can be applied to industrial sectors such as wind energy, the oil and gas industry, marine and aerospace to facilitate asset management.
从检测图像到大型结构三维数字孪生的损坏映射
本研究开发了一种方法,用于创建大型结构的详细可视化数字孪生结构,以及通过目视检查或无损检测检测到的真实损伤。该方法通过一个海上风力涡轮机过渡部件和一个复合材料转子叶片进行了演示,这两个部件分别存在表面油漆损坏和表层下分层损坏。利用人工智能和颜色阈值分割技术对无人机拍摄的光学图像中的损伤进行分类和定位。这些损伤被数字化并映射到大型结构的三维几何重建或结构的 CAD 模型中。为了将图像从二维映射到三维,元数据信息与大型结构三维模型的地理位置相结合。三维模型既可以是结构的 CAD 模型,也可以是基于摄影测量的三维重建模型。绘制完损坏图后,数字孪生系统就能准确地再现结构。损坏的位置、形状和大小在数字孪生上清晰可见。所展示的方法可应用于风能、石油和天然气工业、海洋和航空航天等工业领域,以促进资产管理。
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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