通过卷积神经网络(CNN)自动监测历史建筑外墙的生物群落化情况

IF 3.5 2区 综合性期刊 0 ARCHAEOLOGY Journal of Cultural Heritage Pub Date : 2024-09-13 DOI:10.1016/j.culher.2024.08.012
Marco D'Orazio, Andrea Gianangeli, Francesco Monni, Enrico Quagliarini
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引用次数: 0

摘要

建筑文化遗产面临着不同类型的活动造成的各种损坏问题。为了减少采取重大干预措施的必要性,人们提出了基于数据收集、定期监测、检查和环境因素控制的预防性保护(PC)方法。已经提出并在实际案例中实施了能够描述建筑物老化状态演变的监测行动。考虑到不同主体出于不同目的不断收集历史建筑外墙的数字图像(DI),它们是支持 PC 方法和开发预测工具的最广泛的现有数据源。历史建筑外墙的 DI 可用于帮助早期识别不同类型的老化过程,支持基于机器学习(ML)方法的预测模型的创建和应用。这项工作提出了一种自动检测建筑外墙生物菌落的方法。利用在受控条件下开展实验活动时收集的代表历史砖外墙微藻和蓝藻生长过程的图像,对卷积神经网络(CNN)进行了训练和测试。经过训练的模型准确率为 87%,能够识别不同类型砖块上的生物群落。训练有素的模型已应用于作为案例研究的历史建筑。该案例研究的外墙受到监控摄像头的持续监控,由于建筑的公共功能,外墙的 DI 经常被收集。研究表明,只需使用训练有素的网络处理这些图像,就可以检测到生物劣化过程的第一阶段。这项工作是更广泛研究的一部分,目的是早期检测不同类型的建筑外墙损坏,在有监控摄像头或其他来源的 DI 的情况下,可以很容易地实施。
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Automatic monitoring of the biocolonisation of historical building's facades through convolutional neural networks (CNN)

Built cultural heritage is exposed to various deterioration problems caused by different types of actions. To reduce the need for major interventions, preventive conservation (PC) approaches were proposed, based on data collection, regular monitoring, inspections, and control of environmental factors. Monitoring actions able to depict the evolution of buildings’ deterioration state, have been proposed and implemented in real cases. Considering that digital images (DI) of historical facades are constantly collected by different subjects and for different purposes, they represent the widest existing data source to support PC approaches and develop predictive tools. DI of historical façades can be used to help in the early recognition of different types of deterioration processes, supporting the creation and application of predictive models based on machine learning (ML) methods. This work proposes a method for the automatic detection of biological colonisation of building facades. A convolutional neural network (CNN) has been trained and tested with images representing the microalgae and cyanobacteria growth process on historical bricks’ facades, collected during experimental activities in controlled conditions. The trained model is characterized by an accuracy of 87 % and can recognise bio-colonisation on different types of bricks. The trained model has been applied to a historical building used as a case study. The facades of the case study are constantly monitored by surveillance cameras, and DI of the facades are often collected due to the public function of the building. The study shows that by simply processing these images with the trained network it is possible to detect the first stage of bio-deterioration processes. This work is part of more extensive research for the early detection of different types of building façade damages and can be easily implemented where DI coming from surveillance cameras or other sources are available.

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来源期刊
Journal of Cultural Heritage
Journal of Cultural Heritage 综合性期刊-材料科学:综合
CiteScore
6.80
自引率
9.70%
发文量
166
审稿时长
52 days
期刊介绍: The Journal of Cultural Heritage publishes original papers which comprise previously unpublished data and present innovative methods concerning all aspects of science and technology of cultural heritage as well as interpretation and theoretical issues related to preservation.
期刊最新文献
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