保护建筑遗产的 HBIM

IF 2.8 3区 地球科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS
Yahya Alshawabkeh, Ahmad Baik, Yehia Miky
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引用次数: 0

摘要

建筑信息模型(BIM)作为重建历史建筑几何结构和收集相关信息的一种方法,最近在历史建筑中越来越流行。遗产 BIM(HBIM)结合了有关表面状况的高级数据,是保护决策的重要工具。然而,在遗产中实施 BIM 有其挑战性,因为 BIM 库是为新建筑设计的,无法适应历史结构中的形态不规则性。本文讨论了一种建筑勘测工作流程,该流程使用 TLS、图像和深度学习算法来优化 HBIM,以保护纳巴特建筑遗产。除了创建新的资源丰富、细节丰富的纳巴特图书馆外,所提议的方法还通过包含两个数据输出来增强 HBIM。第一个数据集包含 TLS 3D 密集网格模型,该模型使用了从独立图像中提取的高质量纹理进行增强,这些图像是在最佳时间和地点拍摄的,可准确描绘表面特征。这些图像还被用来创建真实的正射影像,使用从 TLS 导出的精确可靠的 2.5D DSM,消除了所有图像失真。真实正射影像随后被用于 HBIM 纹理制作,以创建逼真的衰减图,并与深度学习算法相结合,自动检测和绘制 BIM 模型中的表面特征和裂缝轮廓,以及它们的统计参数。在结构化的二维真实正射影像上使用深度学习,可以产生损害量化所需的度量单位的分割结果,并有助于克服在二维非度量图像上使用深度学习的局限性,因为二维非度量图像通常使用像素来测量裂缝宽度和面积。结果表明,扫描仪与图像的集成可以为信息丰富的 HBIM 模型高效地收集数据,并为利益相关者提供调查和分析建筑物的高效工具,以确保适当的保护。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
HBIM for Conservation of Built Heritage
Building information modeling (BIM) has recently become more popular in historical buildings as a method to rebuild their geometry and collect relevant information. Heritage BIM (HBIM), which combines high-level data about surface conditions, is a valuable tool for conservation decision-making. However, implementing BIM in heritage has its challenges because BIM libraries are designed for new constructions and are incapable of accommodating the morphological irregularities found in historical structures. This article discusses an architecture survey workflow that uses TLS, imagery, and deep learning algorithms to optimize HBIM for the conservation of the Nabatean built heritage. In addition to creating new resourceful Nabatean libraries with high details, the proposed approach enhanced HBIM by including two data outputs. The first dataset contained the TLS 3D dense mesh model, which was enhanced with high-quality textures extracted from independent imagery captured at the optimal time and location for accurate depictions of surface features. These images were also used to create true orthophotos using accurate and reliable 2.5D DSM derived from TLS, which eliminated all image distortion. The true orthophoto was then used in HBIM texturing to create a realistic decay map and combined with a deep learning algorithm to automatically detect and draw the outline of surface features and cracks in the BIM model, along with their statistical parameters. The use of deep learning on a structured 2D true orthophoto produced segmentation results in the metric units required for damage quantifications and helped overcome the limitations of using deep learning for 2D non-metric imagery, which typically uses pixels to measure crack widths and areas. The results show that the scanner and imagery integration allows for the efficient collection of data for informative HBIM models and provide stakeholders with an efficient tool for investigating and analyzing buildings to ensure proper conservation.
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来源期刊
ISPRS International Journal of Geo-Information
ISPRS International Journal of Geo-Information GEOGRAPHY, PHYSICALREMOTE SENSING&nb-REMOTE SENSING
CiteScore
6.90
自引率
11.80%
发文量
520
审稿时长
19.87 days
期刊介绍: ISPRS International Journal of Geo-Information (ISSN 2220-9964) provides an advanced forum for the science and technology of geographic information. ISPRS International Journal of Geo-Information publishes regular research papers, reviews and communications. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. The 2018 IJGI Outstanding Reviewer Award has been launched! This award acknowledge those who have generously dedicated their time to review manuscripts submitted to IJGI. See full details at http://www.mdpi.com/journal/ijgi/awards.
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