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Main Authors: Cormier, A, Roqui, David, Surma, Fabrice, Labouré, Martin, Vallet, Jean-Marc, Guillon, Odile, Grozavu, N, Bourgès, Ann
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.13343
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author Cormier, A
Roqui, David
Surma, Fabrice
Labouré, Martin
Vallet, Jean-Marc
Guillon, Odile
Grozavu, N
Bourgès, Ann
author_facet Cormier, A
Roqui, David
Surma, Fabrice
Labouré, Martin
Vallet, Jean-Marc
Guillon, Odile
Grozavu, N
Bourgès, Ann
contents Heritage materials are already affected by climate change, and increasing climatic variations reduces the lifespan of monuments. As weathering depends on many factors, it is also difficult to link its progression to climatic changes. To predict weathering, it is essential to gather climatic data while simultaneously monitoring the progression of deterioration. The multimodal nature of collected data (images, text{\ldots}) makes correlations difficult, particularly on different time scales. To address this issue, the COLISEUM project proposes a methodology for collecting data in three French sites to predict heritage material behaviour using artificial intelligence computer models. Over time, prediction models will allow the prediction of future material behaviours using known data from different climate change scenarios by the IPCC (Intergovernmental Panel on Climate Change). Thus, a climate monitoring methodology has been set up in three cultural sites in France: Notre-Dame cathedral in Strasbourg ( 67), Bibracte archaeological site (71), and the Saint-Pierre chapel in Villefranche-sur-Mer (06). Each site has a different climate and specific materials. In situ, microclimatic sensors continuously record variations parameters over time. The state of alteration is monitored at regular intervals by means of chemical analyses, cartographic measurements and scientific imaging campaigns. To implement weathering models, data is gathered in alteration matrix by mean of a calculated weathering index. This article presents the instrumentation methodology, the initial diagnostic and the first results with the example of Strasbourg Cathedral site.
format Preprint
id arxiv_https___arxiv_org_abs_2511_13343
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Coliseum project: Correlating climate change data with the behavior of heritage materials
Cormier, A
Roqui, David
Surma, Fabrice
Labouré, Martin
Vallet, Jean-Marc
Guillon, Odile
Grozavu, N
Bourgès, Ann
Hardware Architecture
Heritage materials are already affected by climate change, and increasing climatic variations reduces the lifespan of monuments. As weathering depends on many factors, it is also difficult to link its progression to climatic changes. To predict weathering, it is essential to gather climatic data while simultaneously monitoring the progression of deterioration. The multimodal nature of collected data (images, text{\ldots}) makes correlations difficult, particularly on different time scales. To address this issue, the COLISEUM project proposes a methodology for collecting data in three French sites to predict heritage material behaviour using artificial intelligence computer models. Over time, prediction models will allow the prediction of future material behaviours using known data from different climate change scenarios by the IPCC (Intergovernmental Panel on Climate Change). Thus, a climate monitoring methodology has been set up in three cultural sites in France: Notre-Dame cathedral in Strasbourg ( 67), Bibracte archaeological site (71), and the Saint-Pierre chapel in Villefranche-sur-Mer (06). Each site has a different climate and specific materials. In situ, microclimatic sensors continuously record variations parameters over time. The state of alteration is monitored at regular intervals by means of chemical analyses, cartographic measurements and scientific imaging campaigns. To implement weathering models, data is gathered in alteration matrix by mean of a calculated weathering index. This article presents the instrumentation methodology, the initial diagnostic and the first results with the example of Strasbourg Cathedral site.
title Coliseum project: Correlating climate change data with the behavior of heritage materials
topic Hardware Architecture
url https://arxiv.org/abs/2511.13343