Conference Sessions by Bojana Gruska
The digital reconstruction of the recently discovered Tuscanic temple of Uni in Marzabotto gave t... more The digital reconstruction of the recently discovered Tuscanic temple of Uni in Marzabotto gave the chance to test the application of the Building Information Modeling (BIM) process to the combined fields of Archaeology and Engineering. In addition to the traditional historic and archaeological analysis, a new methodology in Experimental Archaeology is proposed; it proved to be original and innovative in the examination of the buried building, taking advantage of technologies focused on the architectural reliability validated by inferred digital models.
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Papers by Bojana Gruska
E. CIRELLI, E. GIORGI, G. LEPORE (a c.), Economia e Territorio. L'Adriatico centrale tra tarda Antichità e Medioevo, 2019
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The paper aims to explain the analytical method used to virtually recreate the houses of the Etru... more The paper aims to explain the analytical method used to virtually recreate the houses of the Etruscan city of Marzabotto. As stated in the title, the starting point of the process was the analysis conducted on the tangible archaeological evidence of building materials; these latter were fully integrated with data provided by the ancient sources and the latest technology. Next, the problems and the solutions adopted in order to recreate the houses are presented. In the last section the criteria used for the visual restitution of the unexcavated context of the ancient city are explained.
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Best paper Arqueologica 2.0.
The digital reconstructionof the recently discovered Tuscanic temple... more Best paper Arqueologica 2.0.
The digital reconstructionof the recently discovered Tuscanic temple of Uniin the archaeological site of Marzabotto, the Etruscan town of Kainua,gave the chance to test the application of the Building Information Modeling(BIM) processto the combinedfieldsof archaeology and engineering.In addition to the traditional historic and archaeological analysis, the casestudywas mainly approached consideringfindings andrules based on thedispositiones tuscanicaeby Vitruvius; given these premises, anew methodologyinexperimental archaeologyis proposed;itproved to be original and innovative inthe examination of buried buildings,taking advantageof technologies focused on the architectural and structural reliability,validated byinferred digital models. The peculiar aspect of thisresearchinvolves the elements at the beginningof the process, whichconsist offoundations or negative archaeological evidencesonly,supported bythe clues and the rules that can be found inthe historic and scientific literature. The casestudypresentsthe stepsin the process, beginning from the analysis of the archaeological remains and the ancient sources. The digital acquisition of the roof tilesand the paleobotanical detailed studyallowedto virtually reconstruct the physical behaviour ofmaterials,consideringtheir ownstructural properties.Finally, the BIM enviromentproves how successfully it mimics the building processof the temple.To better define this distinctive working process, the expression ArchaeoBIMwasproposed, which highlightsthe common BIM matrix used forthe data management throughone or moreanalytical models, applied to the peculiar aspectsof the archaeological discipline.
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Conference Sessions by Bojana Gruska
Papers by Bojana Gruska
The digital reconstructionof the recently discovered Tuscanic temple of Uniin the archaeological site of Marzabotto, the Etruscan town of Kainua,gave the chance to test the application of the Building Information Modeling(BIM) processto the combinedfieldsof archaeology and engineering.In addition to the traditional historic and archaeological analysis, the casestudywas mainly approached consideringfindings andrules based on thedispositiones tuscanicaeby Vitruvius; given these premises, anew methodologyinexperimental archaeologyis proposed;itproved to be original and innovative inthe examination of buried buildings,taking advantageof technologies focused on the architectural and structural reliability,validated byinferred digital models. The peculiar aspect of thisresearchinvolves the elements at the beginningof the process, whichconsist offoundations or negative archaeological evidencesonly,supported bythe clues and the rules that can be found inthe historic and scientific literature. The casestudypresentsthe stepsin the process, beginning from the analysis of the archaeological remains and the ancient sources. The digital acquisition of the roof tilesand the paleobotanical detailed studyallowedto virtually reconstruct the physical behaviour ofmaterials,consideringtheir ownstructural properties.Finally, the BIM enviromentproves how successfully it mimics the building processof the temple.To better define this distinctive working process, the expression ArchaeoBIMwasproposed, which highlightsthe common BIM matrix used forthe data management throughone or moreanalytical models, applied to the peculiar aspectsof the archaeological discipline.
The digital reconstructionof the recently discovered Tuscanic temple of Uniin the archaeological site of Marzabotto, the Etruscan town of Kainua,gave the chance to test the application of the Building Information Modeling(BIM) processto the combinedfieldsof archaeology and engineering.In addition to the traditional historic and archaeological analysis, the casestudywas mainly approached consideringfindings andrules based on thedispositiones tuscanicaeby Vitruvius; given these premises, anew methodologyinexperimental archaeologyis proposed;itproved to be original and innovative inthe examination of buried buildings,taking advantageof technologies focused on the architectural and structural reliability,validated byinferred digital models. The peculiar aspect of thisresearchinvolves the elements at the beginningof the process, whichconsist offoundations or negative archaeological evidencesonly,supported bythe clues and the rules that can be found inthe historic and scientific literature. The casestudypresentsthe stepsin the process, beginning from the analysis of the archaeological remains and the ancient sources. The digital acquisition of the roof tilesand the paleobotanical detailed studyallowedto virtually reconstruct the physical behaviour ofmaterials,consideringtheir ownstructural properties.Finally, the BIM enviromentproves how successfully it mimics the building processof the temple.To better define this distinctive working process, the expression ArchaeoBIMwasproposed, which highlightsthe common BIM matrix used forthe data management throughone or moreanalytical models, applied to the peculiar aspectsof the archaeological discipline.