Application of humidity sensors for monitoring built cultural heritage

Authors

DOI:

https://doi.org/10.46421/entac.v20i1.5771

Keywords:

Sensor, Historical heritage, Moisture, Digital Twin

Abstract

This article presents a study on the use of capacitive humidity sensors to monitor rising and falling humidity phenomena in historic masonry buildings. The proposed system consists of installing a mesh of capacitive humidity sensors on the facades of buildings, which communicate with a digital model of the building dedicated to monitoring pathologies in the built environment. During the research process, the layers of data collection, communication (wireless network) and the interface with the BIM model — “Building Information Modeling” were implemented. The microcontroller used for the integration between the physical and digital object was the ESP32, a low-cost and low-power integrated board. Preliminary research results demonstrate that, through the use of low-cost sensors, it is feasible to combine advanced sensing technology with the conservation of built cultural heritage. Furthermore, it is possible to avoid problems that could compromise the integrity of the building, incur significant repair costs, as well as pose risks to the health of occupants due to the presence of mold and fungi.

   

Author Biographies

Pedro Oscar Pizzetti Mariano, UFSC

PhD in architecture and urban planning

   

Felipe Bruno Lima da Silva, UNICAMP

PhD in architecture and urban planning

   

Yasmin Silva Sônego, Federal University of Santa Catarina

Undergraduate in Control and Automation Engineering

   

Geovana de Souza Machado, Federal University of Santa Catarina - UFSC

Master's student in Architecture and Urbanism

   

Ana Regina Mizrahy Cuperschmid, UNICAMP

PhD in Architecture and Urbanism

Carlos Eduardo Verzola Vaz, Federal University of Santa Catarina - UFSC

PhD in Architecture and Urbanism

   

References

KÜHL, B. M. Preservação de Bens Culturais. PosFAUUSP, São Paulo, Brasil, v. 19, n. 31, p. 202-209, 2012. DOI: https://

doi.org/10.11606/issn.2317-2762.v19i31p202-209

HESS, M. et al. Informing Historical Preservation with the Use of Non-destructive Diagnostic Techniques: A Case Study at Ecab,

Quintana Roo, Mexico. In: IOANNIDES, M. et al. (Eds.) Digital Heritage - Progress in Cultural Heritage: Documentation,

Preservation, and Protection. EuroMed 2014. Lecture Notes in Computer Science, v. 8740. Springer, Cham, 2014. DOI: https://

doi.org/10.1007/978-3-319-13695-0_67

BRUNO S.; FATIGUSO, F. Building conditions assessment of built heritage in historic building information modeling. International

Journal of Sustainable Development and Planning, v. 13, n. 1, p. 36-48, 2018. DOI: https://doi.org/10.2495/SDP-V13-N1-36-48

FREITAS, V. P.; GUIMARÃES, A. S. Tratamento da humidade ascensional no património histórico. Revista ALCONPAT, v. 4, n. 1, p.

-13, 2014.

ALEXAKIS, E. et al. NDT as a monitoring tool of the works progress and the assessment of materials and rehabilitation

interventions at the Holy Aedicule of the Holy Sepulchre. Construction and Building Materials, v. 189, p. 512–526, 2018.

CARDINALE, T.; BALESTRA, A.; CARDINALE, N. Thermographic mapping of a complex vernacular settlement: the case study of

Casalnuovo District within the Sassi of Matera (Italy). Energy Procedia, v. 76, p. 40-48, 2015.

GARRIDO, I. et al. Algorithms for the automatic detection and characterization of pathologies in heritage elements from

thermographic images. In: 27th CIPA International Symposium “Documenting the past for a better future”, 1-5 September 2019,

Ávila, Spain. Anais [...]. Ávila: ISPRS, 2019. p. 497-501.

GEORGESCU, M. S. et al. Heritage and Climate Changes in Romania: the St. Nicholas Church of Densus, from Degradation to

Restoration. Energy Procedia, v. 133, p. 76–85, 2017.

KILIC, G. Using advanced NDT for historic buildings: Towards an integrated multidisciplinary health assessment strategy. Journal

of Cultural Heritage, v. 16, p. 526–535, 2015.

LERMA, C. et al. Quantitative Analysis Procedure for Building Materials in Historic Buildings by Applying Infrared Thermography.

Russian Journal of Nondestructive Testing, v. 54, n. 8, p. 601–609, 2018.

DE FINO, M. et al. ‘Augmented diagnostics’ for the architectural heritage. International Journal of Heritage Architecture, v. 2, n. 2,

p. 248-260, 2018. DOI: https://doi.org/10.2495/HA-V2-N2-248-260

KLEIN, L.; LI, N.; BECERIK-GERBER, B. Imaged-based verification of as-built documentation of operational buildings. Automation in

Construction, v. 21, p. 161-171, 2012. DOI: https://doi.org/10.1016/j.autcon.2011.05.023

GROETELAARS, N. J.; AMORIM, A. L. Um panorama sobre o uso de nuvens de pontos para criação de modelos BIM. In: II Seminário

Nacional de Documentação do Patrimônio Arquitetônico com o Uso de Tecnologias Digitais, 2012, Belém. Anais […] Belém:

ARQ.DOC, 2012, p. 1-12.

SALGADO, M. S.; CANUTO, C.; RIBEIRO, L. Possibilidades oferecidas pelas tecnologias digitais na preservação do patrimônio

arquitetônico. In: RIBEIRO, R. T. M.; NÓBREGA, C. C. L. (Orgs.) Projeto e Patrimônio: Reflexões e Aplicações. 1. ed. Rio de Janeiro:

Rio Book’s, 2016.

ASTORGA, J. Projeto de Restauração: Prática e modernidade. In: RIBEIRO, R. T. M.; NÓBREGA, C. C. L. (Orgs.) Projeto e Patrimônio:

Reflexões e Aplicações. 1. ed. Rio de Janeiro: Rio Book’s, 2016.

TINOCO, J. E. L. Mapa de Danos – Recomendações Básicas. Textos para Discussão - Série 2: Gestão de Restauro, v. 43. Olinda:

Centro de Estudos Avançados da Conservação Integrada (CECI), 2009.

MERCURI, F. et al. Pulsed Thermography Applied to the Study of Cultural Heritage. Applied Sciences, v. 7, n. 1010, 2017. DOI:

https://doi.org/10.3390/app7101010

ICOMOS. Charter for the Protection and Management of the Archaeological Heritage (1990). In: 9th General Assembly,

International Committee for the Management of Archaeological Heritage (ICAHM), Lausanne, 1990.

ICOMOS. Principles for the Recording of Monuments, Groups of Buildings and Sites (1996). In: 11th ICOMOS General Assembly in

Sofia, Sofia, 1996.

ICOMOS. Charter on the Protection and Management of Underwater Cultural Heritage (1996). In: 11th ICOMOS General Assembly

in Sofia, Sofia, 1996.

DEL LAMA, E. A. Estudos de Conservação em Pedra. Tese (Livre-Docência em Mineralogia e Geotécnica) – Instituto de Geociências,

Universidade de São Paulo, São Paulo, 2016. DOI: https://doi.org/10.11606/T.44.2017.tde-21022017-095626

LIÑÁN, C. R. et al. Application of Non-Destructive Techniques in the Inspection of Wooden Structures of Protected Buildings: The

Case of Nuestra Señora de los Dolores Church (Isla Cristina, Huelva). International Journal of Architectural Heritage, v. 9, n. 3, p.

-340, 2015. DOI: https://doi.org/10.1080/15583058.2013.771292

SFARRA, S. et al. Santa Maria di Collemaggio Church (L’Aquila, Italy): Historical Reconstruction by Non-Destructive Testing

Techniques. International Journal of Architectural Heritage. v. 9, n. 4, p. 367–390, 2015. DOI: https://

doi.org/10.1080/15583058.2013.794376

TAVUKÇUOǦLU, A. Non-Destructive Testing for Building Diagnostics and Monitoring: Experience Achieved with Case Studies.

MATEC Web of Conferences, v. 149, n. 01015, 2018. DOI: https://doi.org/10.1051/matecconf/201814901015

VALERO, L. R.; SASSO, V. F.; VICIOSO, E. P. In situ assessment of superficial moisture condition in façades of historic buildings using

non-destructive techniques. Case Studies in Construction Materials, v. 10, n. e00228, 2019. DOI: https://doi.org/10.1016/

j.cscm.2019.e00228

JONES, D. et al. Characterising the Digital Twin: A systematic literature review. CIRP Journal of Manufacturing Science and

Technology, v. 29, part A, p. 36–52, 2020. DOI: https://doi.org/10.1016/j.cirpj.2020.02.002

GRIEVES, M. (2015). Digital Twin: Manufacturing Excellence through Virtual Factory Replication. Disponível em: https://

www.researchgate.net/publication/275211047_Digital_Twin_Manufacturing_Excellence_through_Virtual_Factory_Replication.

Acesso em: 12 abril 2024.

MESQUITA, E. et al. Boletim Técnico 11 - Caracterização, avaliação e recuperação estrutural de construções históricas. ALCONPAT,

p. 1-18, 2015. DOI: https://doi.org/10.13140/RG.2.1.1445.1606

MESQUITA, E. et al. Non-destructive characterization of ancient clay brick walls by indirect ultrasonic measurements. Journal of

Building Engineering, v. 19, p. 172–180, 2018. DOI: https://doi.org/10.1016/j.jobe.2018.05.011

TOMKO, M.; WINTER, S. Beyond digital twins – A commentary. Environment and Planning B: Urban Analytics and City Science, v.

, n. 2, p. 395-399, 2019. DOI: https://doi.org/10.1177/2399808318816992

BOJE, C. et al. Towards a semantic Construction Digital Twin: Directions for future research. Automation in Construction, v. 114, n.

, 2020. DOI: https://doi.org/10.1016/j.autcon.2020.103179

MCNEEL, R. Associates. Rhinoceros 3D modelling Software. v. 5, 2014.

RUTTEN, D.; MCNEEL, R. Grasshopper 3D. www.grasshopper3d.com. 2014.

PAYNE, A.; JOHNSON, J. K. Firefly. Go from Code to Nodes — and back. 2015.

VOIGT, A. F. Memória do Bairro Trindade em Florianópolis. Revista Ágora (Florianópolis), v. 21, n. 43, p. 111-123, 2011.

ASUNI (Barcelona). VisualARQ 2: Flexible BIM. 2024. Disponível em: https://www.visualarq.com/features/. Acesso em: 13 mar.

DEMBSKI, F. et al. Urban Digital Twins for Smart Cities and Citizens: The Case Study of Herrenberg, Germany. Sustainability, v. 12,

n. 6:2307, 2020. DOI: https://doi.org/10.3390/su12062307

BATTY, M. Digital Twins. Environment and Planning B: Urban Analytics and City Science, v. 45, n. 5, p. 817–820, 2018. DOI: https://

doi.org/10.1177/2399808318796416

Published

2024-10-07

How to Cite

MARIANO, Pedro Oscar Pizzetti; DA SILVA, Felipe Bruno Lima; SÔNEGO, Yasmin Silva; MACHADO, Geovana de Souza; CUPERSCHMID, Ana Regina Mizrahy; VAZ, Carlos Eduardo Verzola. Application of humidity sensors for monitoring built cultural heritage. In: NATIONAL MEETING OF BUILT ENVIRONMENT TECHNOLOGY, 20., 2024. Anais [...]. Porto Alegre: ANTAC, 2024. p. 1–12. DOI: 10.46421/entac.v20i1.5771. Disponível em: https://eventos.antac.org.br/index.php/entac/article/view/5771. Acesso em: 23 nov. 2024.

Issue

Section

Tecnologia da Informação e Comunicação

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