竹结构:结构健康监测和传播的创新方法与应用

Vincenzo Barrile, Emanuela Genovese
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引用次数: 0

摘要

竹子因其独特的特性,如耐磨、轻便、可持续性和灵活性,在建筑材料领域正受到越来越多的关注。然而,竹子作为建筑材料的广泛应用也带来了一些挑战,尤其是在材料的耐久性方面。事实上,作为一种天然材料,竹子需要免受雨水和阳光等大气介质的侵蚀,以及昆虫和动物的攻击。要确保竹子的使用寿命,就需要对竹子进行有针对性的处理,采取精确的预防措施,并定期进行结构检查,以发现竹子随着时间的推移可能出现的退化。在此背景下,文章重点介绍了对竹子结构的监测,以及对一个创新系统的测试,以确定在中意两国文化交流项目中存在的结构性关键问题。从使用无人机对结构进行勘测开始,使用商业软件建立了三维模型。在结构监测阶段,使用了一个创新系统,该系统利用 YOLO v5s6 算法识别结构关键问题,并由作者开发的虚拟/增强/混合现实应用程序提供支持。该应用程序不仅在监测阶段非常有用,而且在随后的结构工程领域竹材使用潜力信息传播阶段也非常有用。事实证明,经过测试和建议的方法是非常有用和高效的,特别是在竹结构监测方面,可以解决竹结构在某些应用领域可能存在的脆弱性和局限性问题。本文通过地理信息学方法所做的贡献是显而易见的,即通过意识到这种生态友好材料的潜力,更好地突出其在建筑领域日益增长的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bamboo structures: Innovative methods and applications for structural health monitoring and dissemination

Bamboo is gaining more and more attention in the field of building materials thanks to its unique characteristics, such as resistance, lightness, sustainability, and flexibility. However, the widespread adoption of bamboo as a building material presents some challenges, especially in relation to the durability of the material. In fact, being a natural material, it requires protection from atmospheric agents, such as rain and sun, as well as from attacks by insects and animals. Ensuring the longevity of bamboo involves implementing tailored treatments, precise precautions, and regular structural inspections to detect any potential degradation over time. In this context, the article focused on the monitoring of a structure made of bamboo and on the testing of an innovative system to identify the structural critical issues present, in the context of a FISR project which envisaged a cultural exchange between China and Italy. Starting from the survey of the structure carried out with a drone, a 3D model was then built using a commercial software. For the monitoring phase of the structure, an innovative system was used that exploits the YOLO v5s6 algorithm to identify structural critical issues, supported by a Virtual/Augmented/Mixed reality app developed by the authors. This app is useful not only during the monitoring phase, but also in the subsequent phase of disseminating information relating to the potential of the use of bamboo in the field of structural engineering. The tested and proposed methodologies have proven to be particularly useful and high-performance, especially regarding the monitoring of bamboo structures, in relation to the resolution of problems linked to their possible fragility and limitations in certain application areas. The contribution provided in this paper by Geomatics methodologies is evident to better highlight the potential of this eco-friendly material for its desirable ever-increasing use in the construction sector by becoming aware of its potential.

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