Please use this identifier to cite or link to this item: http://hdl.handle.net/2122/8706
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dc.contributor.authorallBonali, E.; DAPT, Università di Bolognaen
dc.contributor.authorallPesci, A.; Istituto Nazionale di Geofisica e Vulcanologia, Sezione Bologna, Bologna, Italiaen
dc.contributor.authorallCasula, G.; Istituto Nazionale di Geofisica e Vulcanologia, Sezione Bologna, Bologna, Italiaen
dc.contributor.authorallBoschi, E.; Dipartimento di Fisica, Università di Bolognaen
dc.date.accessioned2013-05-17T09:07:22Zen
dc.date.available2013-05-17T09:07:22Zen
dc.date.issued2014en
dc.identifier.urihttp://hdl.handle.net/2122/8706en
dc.description.abstractThe study of the health of a building connects humanistic and scientific research, and a complete characterization can be achieved by integrating all the available historical documentation, architectural and metrological studies, as well as laboratory and in situ analyses of the materials. A contactless, non-invasive surveying technique such as terrestrial laser scanning (TLS) allows the acquisition of dense and accurate geometric and radiometric (electromagnetic measurements such as signal intensity) information about the observed surface of the building, which can be easily integrated with data provided by high-resolution digital imaging. The early Christian Cantalovo church was surveyed for the first time in April 2011, by means of the ILRIS-3D ER very long range scanner. The second and last survey was performed in June 2012, after the main shocks of the Emilia earthquake seismic sequence. A very long range instrument is suitable for fast, simple and independent measurements, due to its technical characteristics and, for this reason, is easily usable for accurate surveying in emergency conditions. The main results are obtained by applying a data analysis strategy based on the creation of TLS-based morphological maps computed as point-to-primitive differences, which allow the creation of a deformation map and its evolution in time.en
dc.language.isoEnglishen
dc.publisher.nameWiley-Blackwellen
dc.relation.ispartofArchaeometryen
dc.relation.ispartofseries4/56 (2014)en
dc.subjectTerrestrial Laser Scanningen
dc.subjectDeformationen
dc.subjectEarthquakeen
dc.subjectAncient Buildingen
dc.subjectProcedure Standardizationen
dc.titleDeformation of Ancient Buildings inferred by Terrestrial Laser Scanning methodology: the Cantalovo church case study (Northern Italy)en
dc.typearticleen
dc.description.statusPublisheden
dc.type.QualityControlPeer-revieweden
dc.description.pagenumber703-716en
dc.identifier.URLhttp://onlinelibrary.wiley.com/doi/10.1111/arcm.12028/abstracten
dc.subject.INGV04. Solid Earth::04.03. Geodesy::04.03.06. Measurements and monitoringen
dc.identifier.doi10.1111/arcm.12028en
dc.relation.referencesArmesto, J., Roca-Pardiñas, J., Lorenzo, H., and Arias, P., 2010, Modelling masonry arches shape using terrestrial laser scanning data and nonparametric methods, Engineering Structures, 32, 607–15. Bae, K. H., and Lichti, D. D., 1999, A method for automated registration of unorganized point clouds, ISPRSJ Journal of Photogrammetry and Remote Sensing, 63, 36–54. Bergevin, R., Soucy, M., Gagnon, H., and Laurendeau, D., 1996, Towards a general multi-view registration technique, IEEE Transactions on Pattern Analysis and Machine Intelligence, 18, 540–7. Clark, M. R., McCann, D. M., and Forde, M. C., 2003, Application of infrared thermography to the non-destructive testing of concrete and masonry bridges, NDT & E International, 36, 265–75. Grussenmeyer, P., Hanke, K., and Streilein, A., 2002, Architectural photogrammetry, in Digital photogrammetry (eds. M. Kasser and Y. Egels), 300–39, Taylor & Francis, London. Guidoboni, E., and Comastri, A., 2005, Catalogue of earthquakes and tsunamis in the Mediterranean area from the 11th to the 15th century, 90–129, Storia Geofisica Ambiente srl, Editrice Compositori, Bologna, Italy. Hutchinson, T. C., and Chen, Z. Q., 2006, Improved image analysis for evaluating concrete damage, Journal of Computing in Civil Engineering, 20, 210–16. Innovmetric, 2012, Innovmetric PolyWorks® software package description; http://www.innovmetric.com (accessed 10 February 2012). Martínez, J., Soria-Medina, A., Arias, P., and Buffara-Antunes, A., 2012, Automatic processing of terrestrial laser scanning data of building façades, Automation in Construction, 22, 298–305. Optech, 2012, ILRIS-3D ER technical data; http://www.optech.ca (accessed 10 February 2012). Peeters, B., and De Roeck, G., 2001, Stochastic system identification for operational modal analysis: a review, Journal of Dynamic Systems, Measurement, and Control, Transactions of the American Society of Mechanical Engineers, 123, 659–67. Pesci, A., Casula, G., and Boschi, E., 2011a, Laser scanning the Garisenda and Asinelli towers in Bologna (Italy): detailed deformation patterns of two ancient leaning buildings, Journal of Cultural Heritage, 12, 117–27. Pesci, A., Teza, G., and Bonali, E., 2011b, Terrestrial laser scanner resolution: numerical simulations and experiments on spatial sampling optimization, Remote Sensing, 3, 167–84. Pesci, A., Bonali, E., Galli, C., and Boschi, E., 2012, Laser scanning and digital imaging for the investigation of an ancient building: Palazzo d’Accursio study case (Bologna, Italy), Journal of Cultural Heritage, 13, 215–20. Pu, S., and Vosselman, G., 2009, Knowledge based reconstruction of building models from terrestrial laser scanning data, ISPRS Journal of Photogrammetry and Remote Sensing, 64, 575–84. Pu, S., Rutzinger, M., Vosselman, G., and Elberink, S. O., 2011, Recognizing basic structures from mobile laser scanning data for road inventory studies, ISPRS Journal of Photogrammetry and Remote Sensing, 66, 28–39. Remondino, F., Rizzi, A., Kessler, B., Barazzetti, L., Scaioni, M., Fassi, F., Brumana, R., and Pelagotti, A., 2011, Review of geometric and radiometric analyses of paintings, Photogrammetric Records, 26, 439–61. Rens, K. L., and Greimann, L. F., 1997, Ultrasonic approach for nondestructive testing of civil infrastructure, Glass and Ceramics, 11, 97–104. Tsai, R. Y., 1987, Metrology using off-the-shelf TV cameras and lenses, IEEE Journal on Robotics and Automation, 3, 323–44. 14 E. Bonali et alen
dc.description.obiettivoSpecifico1IT. Reti di monitoraggio e Osservazionien
dc.description.journalTypeJCR Journalen
dc.description.fulltextrestricteden
dc.relation.issn0003-813Xen
dc.relation.eissn1475-4754en
dc.contributor.authorBonali, E.en
dc.contributor.authorPesci, A.en
dc.contributor.authorCasula, G.en
dc.contributor.authorBoschi, E.en
dc.contributor.departmentDAPT, Università di Bolognaen
dc.contributor.departmentIstituto Nazionale di Geofisica e Vulcanologia, Sezione Bologna, Bologna, Italiaen
dc.contributor.departmentIstituto Nazionale di Geofisica e Vulcanologia, Sezione Bologna, Bologna, Italiaen
dc.contributor.departmentDipartimento di Fisica, Università di Bolognaen
item.openairetypearticle-
item.cerifentitytypePublications-
item.languageiso639-1en-
item.grantfulltextrestricted-
item.openairecristypehttp://purl.org/coar/resource_type/c_18cf-
item.fulltextWith Fulltext-
crisitem.author.deptIstituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione Bologna, Bologna, Italia-
crisitem.author.deptIstituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione Bologna, Bologna, Italia-
crisitem.author.orcid0000-0003-1863-3132-
crisitem.author.orcid0000-0001-7934-2019-
crisitem.author.parentorgIstituto Nazionale di Geofisica e Vulcanologia-
crisitem.author.parentorgIstituto Nazionale di Geofisica e Vulcanologia-
crisitem.classification.parent04. Solid Earth-
crisitem.department.parentorgIstituto Nazionale di Geofisica e Vulcanologia-
crisitem.department.parentorgIstituto Nazionale di Geofisica e Vulcanologia-
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