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UN METODO PER LO STUDIO DI EDIFICI STORICI MEDIANTE MISURE LASER A SCANSIONE TERRESTRE: LE DUE TORRI DI BOLOGNA
Author(s)
Sponsors
Istituto Nazionale di Geofisica e Vulcanologia
Language
Italian
Obiettivo Specifico
1.10. TTC - Telerilevamento
Status
Published
Peer review journal
No
Issued date
January 31, 2011
Series/Report No.
Rapporti Tecnici INGV
178
Keywords
Abstract
La presente relazione descrive i lavori effettuati a Bologna nel Settembre 2010 con lo scopo di
contribuire allo studio sullo stato di salute delle Due Torri, verificandone le condizioni, mediante l’utilizzo
del sistema laser a scansione terrestre Optech ILRIS 3D in dotazione all’INGV.
Tale sistema di misura non invasivo ha permesso di osservare nel dettaglio
contribuire allo studio sullo stato di salute delle Due Torri, verificandone le condizioni, mediante l’utilizzo
del sistema laser a scansione terrestre Optech ILRIS 3D in dotazione all’INGV.
Tale sistema di misura non invasivo ha permesso di osservare nel dettaglio
References
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in Italian).
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anthopogenic activities, Geomorphology 44 (3−4) (2002) 361−373.
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Park H.S., H.M. Lee, H. Adeli, A new approach to health monitoring of structures: terrestrial laser scanning,
Computer-Aided Civil and Infrastructure Engineering 22 (1) (2007) 19−30.
Peeters B., G. De Roeck, Stochastic system identification for operational modal analysis: a review, Journal
of Dynamic Systems Measurement and Control - Transactions of the ASME 123 (2001) 659−667.
Pesci A., F. Loddo, D. Conforti, The first terrestrial laser scanner survey OVER VESUVIUS: the high
resolution model of VOLCANO crater (Napoli, Italy), International Journal of Remote Sensing, 28 (1)
(2007) 203−219.
Pesci A., G. Teza, E. Bonali, Terrestrial laser scanner resolution: numerical simulations and experiments on
spatial sampling optimization. Submitted to Remote Sensing, 3 (2011)167-184.
doi:10.3390/rs3010167.
Pesci A., G. Casula, E. Boschi, Laser scanning the Garisenda and Asinelli towers in Bologna (Italy): detailed
deformation patterns of two ancient leaning buildings, Journal of Cultural Heritage, in press. Doi:
10.1016/j.culher.2011.01.002.
Rens K.L., L.F. Greimann, Ultrasonic approach for nondestructive testing of civil infrastructure. Glass and
Ceramics 11 (3) (1997) 97−104.
Stramondo S., M. Saroli, C. Tolomei, M. Moro, F. Doumaz, A. Pesci, F. Loddo, P. Baldi, E. Boschi, Surface
movements in Bologna (Po Plain - Italy) and in the detected from multitemporal DInSAR, Remote
Sensing of Environment 110 (3) (2007) 304−316.
Photogrammetry and Remote Sensing 63 (1) (1999) 36−54.
Baldi P., B. Casula, N. Cenni, F. Loddo, A. Pesci, GPS-based monitoring of land subsidence in the Po Plain
(Northern Italy). Earth and Planetary Science Letters 288 (1−2) (2009) 204−212.
Bergevin R., M. Soucy, H. Gagnon, D. Laurendeau, Towards a general multi-view registration technique,
IEEE Transactions on Pattern Analysis and Machine Intelligence 18 (5) (1996) 540−547.
Bitelli G., F. Bonsignore, M. Uguendoli, Levelling and GPS network to monitor round subsidence in the
Southern Po valley, Journal of Geodynamics 30 (3) (2000) 355−369.
Carminati E., G. Martinelli, Subsidence rates in the Po Plain, northern Italy: the relative impact of natural
and anthropogenic causation, Engineering Geology 66 (3−4) (2002) 241−255.
Casula G., A. Pesci, M.G. Bianchi, F. Loddo, La stazione gps BLGN per il monitoraggio della subsidenza,
2009, Rapporti Tecnici INGV, n. 100.
Clark M.R., D.M. McCann, M.C. Forde, Application of infrared thermography to the non-destructive testing
of concrete and masonry bridges, NDT & E International 36 (4) (2003) 265−275.
Fava A., M. Farina, M. Marcaccio, Le caratteristiche degli acquiferi della regione Emilia Romagna, report
ARPA (Agenzia Regionale Prevenzione Ambiente dell'Emilia Romagna), 2003,
http://www.arpa.emr.it/dettaglio_documento.asp?id=553&idlivello=216 (accessed October 20, 2010,
in Italian).
GIM, Terrestrial laser scanners, http://www.gim-international.com. accessed: (October 20, 2010).
Hutchinson T.C., Z.Q. Chen, Improved image analysis for evaluating concrete damage, Journal of
Computing in Civil Engineering 20 (3) (2006) 210−216.
Innovmetric, PolyWorks reference manual, http://www.innovmetric.com (accessed: October 20, 2010).
Marchetti M., Enviromental changes in the Central Po Plain (Northern Italy) due to fluvial modifications and
anthopogenic activities, Geomorphology 44 (3−4) (2002) 361−373.
Optech, ILRIS 3D laser scanner description, http://www.optech.ca/prodilris.htm (accessed: October 20,
2010).
Park H.S., H.M. Lee, H. Adeli, A new approach to health monitoring of structures: terrestrial laser scanning,
Computer-Aided Civil and Infrastructure Engineering 22 (1) (2007) 19−30.
Peeters B., G. De Roeck, Stochastic system identification for operational modal analysis: a review, Journal
of Dynamic Systems Measurement and Control - Transactions of the ASME 123 (2001) 659−667.
Pesci A., F. Loddo, D. Conforti, The first terrestrial laser scanner survey OVER VESUVIUS: the high
resolution model of VOLCANO crater (Napoli, Italy), International Journal of Remote Sensing, 28 (1)
(2007) 203−219.
Pesci A., G. Teza, E. Bonali, Terrestrial laser scanner resolution: numerical simulations and experiments on
spatial sampling optimization. Submitted to Remote Sensing, 3 (2011)167-184.
doi:10.3390/rs3010167.
Pesci A., G. Casula, E. Boschi, Laser scanning the Garisenda and Asinelli towers in Bologna (Italy): detailed
deformation patterns of two ancient leaning buildings, Journal of Cultural Heritage, in press. Doi:
10.1016/j.culher.2011.01.002.
Rens K.L., L.F. Greimann, Ultrasonic approach for nondestructive testing of civil infrastructure. Glass and
Ceramics 11 (3) (1997) 97−104.
Stramondo S., M. Saroli, C. Tolomei, M. Moro, F. Doumaz, A. Pesci, F. Loddo, P. Baldi, E. Boschi, Surface
movements in Bologna (Po Plain - Italy) and in the detected from multitemporal DInSAR, Remote
Sensing of Environment 110 (3) (2007) 304−316.
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report
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