Proof of Concept for Methodological Framework Including Point Clouds in the Non-Destructive Diagnosis of Historical Masonry Structures

IF 2.3 3区工程技术 0 ARCHITECTURE

International Journal of Architectural Heritage Pub Date : 2023-09-27 DOI:10.1080/15583058.2023.2260769

Giada Bartolini, Francesca Giuliani, Anna De Falco

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引用次数: 0

Abstract

ABSTRACTThe diagnosis of cultural heritage structures is a challenging and delicate task. It involves the evaluation of potential pathological situations, the understanding of the origin of displacements and deformations, and the assessment of the state of conservation of building materials. Destructive and minor destructive techniques are mostly prevented from being used in the context of historical constructions and the complementary use of non-destructive techniques is often the only viable solution. This paper addresses the possibility of employing point clouds, widely used for representation aims, as a source of information to identify the deterioration patterns that can affect construction safety. The proposed methodology includes two approaches following a perspective based on simple and recurring elements that form the complex and unique shape of historical buildings. The geometry of structural elements guides the choice towards the computation either of the Z-coordinate of each point of the cloud or the Euclidean distance between the point cloud and an elementary non-deformed geometry fitted to it. By investigating several case studies and diverse deterioration patterns, the proposal establishes a framework to employ point clouds, together with other techniques, as an effective tool to support the diagnosis of heritage structures.KEYWORDS: Built cultural heritageconservationmasonry structuresnon-destructive techniques (NDTs)point cloudstructural diagnosis AcknowledgmentsThe authors wish to acknowledge Lorenzo Rossi and Francesca Gaglio for their preliminary work on the case studies, as well as Massimiliano Martino, Francesco Laccone, and Marco Callieri for their expert suggestions on some specific aspects of the methodological framework.Disclosure statementNo potential conflict of interest was reported by the author(s).

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包含点云的历史砌体结构无损诊断方法框架的概念验证

摘要文化遗产结构的诊断是一项具有挑战性和复杂性的工作。它包括对潜在病理情况的评估，对位移和变形起源的理解，以及对建筑材料保护状态的评估。在历史建筑的背景下，破坏性和轻微破坏性的技术大多被禁止使用，而非破坏性技术的补充使用往往是唯一可行的解决办法。本文讨论了采用点云的可能性，点云广泛用于表示目标，作为识别可能影响建筑安全的恶化模式的信息源。提出的方法包括两种方法，基于简单和重复的元素，形成历史建筑复杂而独特的形状。结构元素的几何形状指导选择计算云的每个点的z坐标或点云与适合它的基本非变形几何之间的欧几里得距离。通过调查几个案例研究和不同的退化模式，该提案建立了一个框架，将点云与其他技术一起作为支持遗产结构诊断的有效工具。作者希望感谢Lorenzo Rossi和Francesca Gaglio在案例研究方面的初步工作，以及Massimiliano Martino、Francesco Laccone和Marco Callieri在方法框架的某些具体方面提出的专家建议。披露声明作者未报告潜在的利益冲突。

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

International Journal of Architectural Heritage 工程技术-工程：土木

CiteScore

7.20

自引率

12.50%

发文量

审稿时长

>12 weeks

期刊介绍： International Journal of Architectural Heritage provides a multidisciplinary scientific overview of existing resources and modern technologies useful for the study and repair of historical buildings and other structures. The journal will include information on history, methodology, materials, survey, inspection, non-destructive testing, analysis, diagnosis, remedial measures, and strengthening techniques. Preservation of the architectural heritage is considered a fundamental issue in the life of modern societies. In addition to their historical interest, cultural heritage buildings are valuable because they contribute significantly to the economy by providing key attractions in a context where tourism and leisure are major industries in the 3rd millennium. The need of preserving historical constructions is thus not only a cultural requirement, but also an economical and developmental demand. The study of historical buildings and other structures must be undertaken from an approach based on the use of modern technologies and science. The final aim must be to select and adequately manage the possible technical means needed to attain the required understanding of the morphology and the structural behavior of the construction and to characterize its repair needs. Modern requirements for an intervention include reversibility, unobtrusiveness, minimum repair, and respect of the original construction, as well as the obvious functional and structural requirements. Restoration operations complying with these principles require a scientific, multidisciplinary approach that comprehends historical understanding, modern non-destructive inspection techniques, and advanced experimental and computer methods of analysis.