Onofri, EliaBizzarro, SofiaTassa, SandroCzech, MichelaBretti, GabriellaCampana, StefanoFerdani, DanieleGraf, HolgerGuidi, GabrieleHegarty, ZackaryPescarin, SofiaRemondino, Fabio2025-09-052025-09-052025978-3-03868-277-6https://doi.org/10.2312/dh.20253236https://diglib.eg.org/handle/10.2312/dh20253236The preservation of cultural heritage is increasingly challenged by environmental factors such as weathering and pollutant exposure, which accelerate the deterioration of historic buildings, statues, and architectural elements. Understanding and mitigating these degradation processes require advanced modelling techniques and open access to experimental data. However, until now, a unified platform integrating state-of-the-art simulation models with a structured repository for data sharing is still lacking. In this work, we introduce StoneVerse, a web-based platform designed to support the study of porous material degradation in built heritage. Developed in alignment with the FAIR principles -Findability, Accessibility, Interoperability, and Reusability-, StoneVerse serves as a collaborative environment where researchers can both share experimental data and access simulation algorithms for predicting damage caused by water infiltration. To the best of our knowledge, it is the first digital platform of its kind, providing open-source computational tools for monitoring stone deterioration alongside a cohesive framework for data publication and dissemination. StoneVerse is developed within the European project ''Humanities and cultural Heritage Italian Open Science Cloud'' - H2IOSC - NextGenerationEU.Attribution 4.0 International LicenseWeb-based Open Science Infrastructure; Cultural Heritage; Percolation Numerical Models; Porous Media; Parameter Estimation. CCS Concepts: Mathematics of computing → Mathematical software; Partial differential equations; Stochastic control and optimization; General and reference → General conference proceedings; Design; Computing methodologies → Simulation tools; Scientific visualization; Applied computing → PublishingWebbased Open Science InfrastructureCultural HeritagePercolation Numerical ModelsPorous MediaParameter Estimation. CCS ConceptsMathematics of computing → Mathematical softwarePartial differential equationsStochastic control and optimizationGeneral and reference → General conference proceedingsDesignComputing methodologies → Simulation toolsScientific visualizationApplied computing → Publishing10.2312/dh.2025323612 pages