LOGIN TO YOUR ACCOUNT

Username
Password
Remember Me
Or use your Academic/Social account:

CREATE AN ACCOUNT

Or use your Academic/Social account:

Congratulations!

You have just completed your registration at OpenAire.

Before you can login to the site, you will need to activate your account. An e-mail will be sent to you with the proper instructions.

Important!

Please note that this site is currently undergoing Beta testing.
Any new content you create is not guaranteed to be present to the final version of the site upon release.

Thank you for your patience,
OpenAire Dev Team.

Close This Message

CREATE AN ACCOUNT

Name:
Username:
Password:
Verify Password:
E-mail:
Verify E-mail:
*All Fields Are Required.
Please Verify You Are Human:
fbtwitterlinkedinvimeoflicker grey 14rssslideshare1
Aita, D.; Barsotti, R.; Bennati, S.; Caroti, G.; Piemonte, A. (2017)
Publisher: Copernicus Publications
Languages: English
Types: Article
Subjects: TA1-2040, T, TA1501-1820, Applied optics. Photonics, Engineering (General). Civil engineering (General), Technology
This paper aims to illustrate the preliminary results of a research project on the dome of Pisa Cathedral (Italy). The final objective of the present research is to achieve a deep understanding of the structural behaviour of the dome, through a detailed knowledge of its geometry and constituent materials, and by taking into account historical and architectural aspects as well. A reliable survey of the dome is the essential starting point for any further investigation and adequate structural modelling. Examination of the status quo on the surveys of the Cathedral dome shows that a detailed survey suitable for structural analysis is in fact lacking. For this reason, high-density and high-precision surveys have been planned, by considering that a different survey output is needed, according both to the type of structural model chosen and purposes to be achieved. Thus, both range-based (laser scanning) and image-based (3D Photogrammetry) survey methodologies have been used. This contribution introduces the first results concerning the shape of the dome derived from surveys. Furthermore, a comparison is made between such survey outputs and those available in the literature.
  • The results below are discovered through our pilot algorithms. Let us know how we are doing!

    • Aita, D., Barsotti, R., Bennati, S., 2016a. Explicit solutions for depressed masonry arches loaded until collapse - Part I: a onedimensional nonlinear elastic model, in Meccanica, Print ISSN 0025-6455, Online ISSN 1572-9648, pp. 1-13, DOI: 10.1007/s11012-016-0420-4.
    • Aita, D., Barsotti, R., Bennati, S., 2016b. Explicit solutions for depressed masonry arches loaded until collapse - Part II: a solution method for statically indeterminate systems, in Meccanica, Print ISSN 0025-6455, Online ISSN 1572-9648, pp. 1-14, DOI: 10.1007/s11012-016-0440-0.
    • Aita, D., Barsotti, R., Bennati, S., 2015. Notes on Limit and Nonlinear Elastic Analyses of Masonry Arches. In Aita D., Pedemonte O., Williams K. (eds.), Masonry Structures: Between Mechanics and Architecture, Birkhäuser, Basel, Print ISBN 978-3-319-13002-6, Online ISBN 978-3-319-13003-3, pp. 237-264, DOI: 10.007/978-3-319-13003-3_9.
    • Aita, D., Barsotti, R., Bennati, S., 2012. Equilibrium of Pointed, Circular, and Elliptical Masonry Arches Bearing Vertical Walls, in Journal of Structural Engineering, Vol. 138 (7), Print ISSN 0733-9445, Online ISSN 1943-541X, pp. 880-888, DOI: 10.1061/(ASCE)ST.1943-541X.0000522.
    • Bevilacqua, M.G., Caroti, G., Martínez-Espejo Zaragoza, I., Piemonte, A., 2016. Frescoed Vaults: Accuracy Controlled Simplified Methodology for Planar Development of ThreeDimensional Textured Models. Remote Sens. MDPI, Suiza, 8, 239. 2016. pp. 1-16. doi:10.3390/rs8030239 Caroti, G., Martínez-Espejo Zaragoza, I., Piemonte, A., 2015a.
    • Range and image based modelling: A way for frescoed vault texturing optimization, in International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, 40 (5W4), pp. 285-290, DOI: 10.5194/isprsarchives-XL-5-W4-285-2015.
    • Caroti, G., Martínez-Espejo Zaragoza, I., Piemonte, A., 2015b.
    • Accuracy assessment in structure from motion 3D reconstruction from UAV-born images: The influence of the data processing methods, in International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, 40 (1W4), pp. 103-109, DOI: 10.5194/isprsarchives-XL-1-W4-103-2015.
    • Caroti, G., Franconi, A., Piemonte, A., 2012. Metodologia di elaborazione dati laser scanner per la generazione di modelli utili al calcolo strutturale, in Proceedings of 16a Conferenza Nazionale ASITA, pp.383-390, ISBN 978-88-903132-7-1.
    • Caroti, G., Fangi, G., 2004. Il rilievo della volta interna del Battistero in S.Maria del Fiore e le chiese fiorentine del duecento e del trecento nella città delle fabbriche arnolfiane, p.p. 145-148, ed. Alinea, Firenze, ISBN: 8881258110.
    • Caroti, G., De Falco, A., 2003. Geometric survey for the structural assessment of the architectural heritage: the case of the Baptistery of S. Giovanni e Reparata in Lucca. in International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, vol.
    • XXXIV, p. 111-116, ISSN: 1682-1750 Cresy, E., Taylor, G. L., 1829. Architecture of the Middle Ages in Italy: illustrated by views, plans, elevations, sections, and details, of the Cathedral, Baptistery, Leaning Tower or Campanile, and Campo Santo, at Pisa, from Drawings and Measurements Taken in the Year 1817, London.
    • Dell'Oste, A., 1595. Carte Lupi 10.IV, Archivio di Stato, Pisa.
    • Fleury, R. de, 1866. Les Monuments de Pise au Moyen-Age, 2 voll., Paris (Atlas, Paris 1868).
    • Guidi, G., Remondino, F., 2012. 3D Modelling from Real Data, in Modeling and Simulation in Engineering, ISBN 978-953-51- 0012-6, pp. 69-102, DOI: 10.5772/30323.
    • Laefer, D.F. , Carr, H. , Morrish, S. , Kalkan, E., 2006.
    • Opportunities and impediments to the use of three-dimensional laser scanning for adjacent excavations. In Proceeding GeoCongress 2006: Geotechnical Engineering in the Information Technology Age. Vol. 2006, p. 78.
    • DOI:10.1061/40803(187)78 Martini, G., 1705. Theatrum basilicae pisanae, in quo praecipuae illius partes enarrationibus iconibusque ostenduntur, cura et studio Josephi Martinii ejusdem Basilicae Canonici et J.S., De Rubeis, Roma.
    • Martini, G., Lejeal, G., 1878. Les grands édifices de Pise: dôme, baptistère, campo-santo, tour penchée: 40 gravures tirées avec les cuivres originaux du Theatrum basilicae Pisanae de Martini / texte extrait de Martini et notes par G. Lejeal, Paris: A. Lévy.
    • Manesson Mallet, A., 1702. La Geometrie pratique: Tome second. Contenant la trigonometrie ou la mesure des distances par les instrumens geometriques ..., Paris: Anisson directeur de l'Imprimerie Royale.
    • Peroni, A., 1995a. Architettura e decorazione. In: Peroni Adriano (ed.), Il Duomo di Pisa, Collana Mirabilia Italiae (diretta da Salvatore Settis), Franco Cosimo Panini Editore, Modena, pp.68-69.
    • Peroni, A., 1995b. Architettura e decorazione. In: Peroni Adriano (ed.), Il Duomo di Pisa, Collana Mirabilia Italiae (diretta da Salvatore Settis), Franco Cosimo Panini Editore, Modena, p 21.
    • Peroni, A., 1995c. Architettura e decorazione. In: Peroni Adriano (ed.), Il Duomo di Pisa, Collana Mirabilia Italiae (diretta da Salvatore Settis), Franco Cosimo Panini Editore, Modena, p. 23.
    • Remondino, F., Spera, M.G., Nocerino, E., Menna, F., Nex, F., 2014. State of the art in high density image matching, in The Photogrammetric Record, 29(146), pp. 144-166, DOI: 10.1111/phor.12063.
    • Robleda, P.G., Caroti, G., Martínez-Espejo, Z.I., Piemonte, A., 2016. Computational vision in UV-Mapping of textured meshes coming from photogrammetric recovery: Unwrapping frescoed vaults, in International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, 41, pp. 391-398, DOI: 10.5194/isprsarchives-XLIB5-391-2016.
    • Salmi, M., 1938. La genesi del Duomo di Pisa, in Bollettino d'Arte, s. III, vol. XXXIII, pp. 149-161.
    • Sanpaolesi, P., 1959a. Il restauro delle strutture della cupola della Cattedrale di Pisa, in Bollettino d'Arte, Anno XLIV, fasc.
    • III, luglio-settembre, Serie IV, p. 202.
    • Sanpaolesi, P., 1959b. Il restauro delle strutture della cupola della Cattedrale di Pisa, in Bollettino d'Arte, Anno XLIV, fasc.
    • III, luglio-settembre, Serie IV, pp. 199-230.
    • Sanpaolesi, P., 1959c. Il restauro delle strutture della cupola della Cattedrale di Pisa, in Bollettino d'Arte, Anno XLIV, fasc.
    • III, luglio-settembre, Serie IV, pp. 207.
    • Supino, I. B., 1913. La costruzione del Duomo di Pisa : memoria letta il 26 febbraio 1913 alla Classe di scienze morali della R. Accademia delle scienze dell'Istituto di Bologna, Bologna: Tip. Gamberini e Parmeggiani.
    • Smith, C., 1984. East or West in 11th-Century Pisan Culture.
    • Visintini, D., Spangher, A., 2013. Rilevamento laser scanning, modello della superficie (DSM) e modello per il metodo agli elementi finiti (FEM) di una struttura, Atti della 17a Conferenza Nazionale ASITA, 1287-1294.
    • Wiebking, C. F. de, 1828. Architecture civile théorique et pratique des édifices anciens et modernes les plus remarquables et de leurs dessins exacts, Munich.
    • Descrizione del Duomo di Pisa, probably dating back to 1825.
    • Il Duomo di Pisa / rilievo a cura dell'Istituto di restauro dei monumenti, 1970. Università degli studi Istituto di restauro dei monumenti Firenze, Nistri-Lischi, Pisa.
  • No related research data.
  • Discovered through pilot similarity algorithms. Send us your feedback.