Advanced search
Publication Cover
International Journal of Architectural Heritage
Conservation, Analysis, and Restoration
Volume 18, 2024 - Issue 7
Submit an article Journal homepage
88
Views
0
CrossRef citations to date
0
Altmetric
Research Article

Damage Assessment Through the Use of SBAS-DInsar Data: An Application to the “Vittorino da Feltre” Masonry School Building in Rome

A. Mianoa Department of Structures for Engineering and Architecture, DIST – University of Naples “Federico II”, Napoli, ItalyCorrespondence[email protected]
,
F. Di Carlob Department of Civil Engineering and Computer Science Engineering, DICII – University of Rome “Tor Vergata”, Roma, Italy
,
A. Melea Department of Structures for Engineering and Architecture, DIST – University of Naples “Federico II”, Napoli, Italy
,
M. Bonanoc CNR-IREA Istituto per il Rilevamento Elettromagnetico dell’Ambiente, Consiglio Nazionale delle Ricerche, Napoli, Italy
,
A. Protaa Department of Structures for Engineering and Architecture, DIST – University of Naples “Federico II”, Napoli, Italy
&
A. Medab Department of Civil Engineering and Computer Science Engineering, DICII – University of Rome “Tor Vergata”, Roma, Italy
Pages 1077-1096 | Received 13 Jan 2023, Accepted 08 May 2023, Published online: 16 May 2023

References

  • Arangio, S., F. Calò, M. Di Mauro, M. Bonano, M. Marsella, and M. Manunta. 2014. An application of the SBAS-DInSAR technique for the assessment of structural damage in the city of Rome. Structure and Infrastructure Engineering 10 (11):1469–83. doi:10.1080/15732479.2013.833949.
  • Baggio, C., A. Bernardini, R. Colozza, L. Corazza, M. Della Bella, M. Dolce, A. Goretti, A. Martinelli, G. Orsini, G. Zuccaro, et al. 2007. Field Manual for post-earthquake damage and safety assessment and short term countermeasures (AeDES). In Scientific and technical reports; EUR 22868 EN-2007, A. Goretti, and M. Rota. ed., JRC. Available onlineIn Italian. accessed on 6 September 2021). https://publications.jrc.ec.europa.eu/repository/handle/JRC37914
  • Bianchini, S., F. Pratesi, T. Nolesini, and N. Casagli. 2015. Building deformation assessment by means of persistent scatterer interferometry analysis on a landslide-affected area: The Volterra (Italy) case study. Remote Sensing 7 (4):4678–701. doi:https://doi.org/10.3390/rs70404678.
  • Bjerrum, L. 1963. Allowable settlement of structures. Proceedings of the 3rd European Conference on Soil Mechanics and Foundation Engineering, Vol. 2, 135–37. Wiesbaden, Germany.
  • Bonano, M., M. Manunta, M. Marsella, and R. Lanari. 2012. Long-term ERS/ENVISAT deformation time-series generation at full spatial resolution via the extended SBAS technique. International Journal of Remote Sensing 33 (15):4756–83. doi:10.1080/01431161.2011.638340.
  • Bonano, M., M. Manunta, A. Pepe, L. Paglia, and R. Lanari. 2013. From previous C-band to new X-band SAR systems: Assessment of the DInSAR mapping improvement for deformation time-series retrieval in urban areas. IEEE Transactions on Geoscience & Remote Sensing 51 (4):1973–84. doi:https://doi.org/10.1109/TGRS.2012.2232933.
  • Boscardin, M. D., and E. G. Cording. 1989. Building response to excavation induced settlement. Journal of Geotechnical Engineering 115 (1):1–21. doi:10.1061/(ASCE)0733-9410.
  • Burland, J. B., B. B. Broms, and V. F. B. De Mello. 1977. Behaviour of foundations and structures. Proceedings of the 9th International Conference on Soil Mechanics and Foundation Engineering, Vol. 2, 495–546, Tokyo, Japan.
  • Burland, J. B., and C. P. Wroth Settlement of buildings and associated damage. In Proceedings of the British Geotechnical Society Conference on Settlements of Structures, Cambridge, UK April 1974; University Engineering Department: Cambridge, UK; pp. 611–54.
  • Confuorto, P., D. Di Martire, D. Infante, A. Novellino, R. Papa, D. Calcaterra, and M. Ramondini. 2019. Monitoring of remedial works performance on landslide-affected areas through ground- and satellite-based techniques. Catena 178:77–89. doi:10.1016/j.catena.2019.03.005.
  • Cuccaro, C. C., C. D’Andrea, S. Perretta, B. Perreca, and V. Veninata 2018. Feasibility project, Municipio Roma I (in Italian): Progetto di fattibilità tecnica ed economica per interventi di miglioramento sismico, messa in sicurezza, adeguamento alla normativa antincendio del plesso scolastico “Vittorino da Feltre”. I.B.U. n. 2149 – anagrafe regionale edilizia scolastica n. 0580913253.
  • Cusson, D., C. Rossi, and I. F. Ozkan. 2021. Early warning system for the detection of unexpected bridge displacements from radar satellite data. Journal of Civil Structural Health Monitoring 11 (1):189–204. doi:https://doi.org/10.1007/s13349-020-00446-9.
  • Cusson, D., K. Trischuk, D. Hébert, G. Hewus, M. Gara, and P. Ghuman. 2018. Satellite-based InSAR monitoring of highway bridges: Validation case study on the north channel bridge in Ontario, Canada. Transportation Research Record 2672 (45):76–86. doi:10.1177/0361198118795013.
  • Delo, G., M. Civera, E. Lenticchia, G. Miraglia, C. Surace, and R. Ceravolo. 2022. Interferometric satellite data in structural health monitoring: An application to the effects of the construction of a subway line in the urban area of Rome. Applied Sciences 12 (3):1658. doi:https://doi.org/10.3390/app12031658.
  • Di Carlo, F., A. Mele, A. Miano, M. Bonano, M. F. P. Esposito, R. Lanari, and A. Prota. 2023. An application of the DInSAR technique for the structural monitoring of the “Vittorino da Feltre” school building in Rome. In European workshop on structural health monitoring, edited by Piervincenzo Rizzo, and Alberto Milazzo, 582–92. Cham: Springer.
  • Di Carlo, F., A. Miano, I. Giannetti, A. Mele, M. Bonano, R. Lanari, A. Meda, and A. Prota. 2021. On the integration of multi-temporal synthetic aperture radar interferometry products and historical surveys data for buildings structural monitoring. Journal of Civil Structural Health Monitoring 11 (5):1429–47. doi:10.1007/s13349-021-00518-4.
  • Lanari, R., O. Mora, M. Manunta, J. J. Mallorquí, P. Berardino, and E. Sansosti. 2004. A small baseline approach for investigating deformations on full resolution differential SAR interferograms. IEEE Transactions on Geoscience & Remote Sensing 42 (7):1377–86. 828196. doi:10.1109/TGRS.2004.828196.
  • Macchiarulo, V., P. Milillo, M. J. DeJong, J. González Martí, J. Sánchez, and G. Giardina. 2021. Integrated InSAR monitoring and structural assessment of tunnelling‐induced building deformations. Structural Control & Health Monitoring 28 (9):1–26. doi:10.1002/stc.2781.
  • Mazzanti, P., and I. Cipriani. 2011. Terrestrial sar interferometry monitoring of a civil building in the city of Rome. In: FRINGE 2011 Workshop on ERS/Envisat SAR Interferometry‘FRINGE11’, 19–23, Frascati, Italy.
  • Mele, A., M. Crosetto, A. Miano, and A. Prota. 2023. Adafinder tool applied to EGMS data for the structural health monitoring of Urban settlements. Remote Sensing 15 (2):324. doi:10.3390/rs15020324.
  • Mele, A., A. Miano, D. Di Martire, D. Infante, M. Ramondini, and A. Prota. 2022. Potential of remote sensing data to support the seismic safety assessment of reinforced concrete buildings affected by slow-moving landslides. Archives of Civil and Mechanical Engineering 22 (2):1–22. doi:10.1007/s43452-022-00407-7.
  • Mele, A., A. Vitiello, M. Bonano, A. Miano, R. Lanari, G. Acampora, and A. Prota. 2022. On the joint exploitation of satellite DInSAR measurements and DBSCAN-Based techniques for preliminary identification and ranking of critical constructions in a built environment. Remote Sensing 14 (8):1872. doi:10.3390/rs14081872.
  • Meyerhof, G. G. 1956. Discussion on paper by AW Skempton and DH MacDonald. The allowable settlement of buildings. Proceedings of the Institution of Civil Engineers 5:774–75.
  • Miano, A., F. Di Carlo, A. Mele, I. Giannetti, N. Nappo, M. Rompato, P. Striano, M. Bonano, F. Bozzano, R. Lanati, et al. 2022. GIS integration of DInSAR measurements, geological investigation and historical surveys for the structural monitoring of buildings and infrastructures: An application to the Valco San Paolo Urban area of Rome. Infrastructures 7 (7):89. doi. doi:10.3390/infrastructures7070089.
  • Miano, A., A. Mele, D. Calcaterra, D. Di Martire, D. Infante, A. Prota, and M. Ramondini. 2021. The use of satellite data to support the structural health monitoring in areas affected by slow-moving landslides: A potential application to reinforced concrete buildings. Structural Health Monitoring 20 (6):3265–87. doi:10.1177/1475921720983232.
  • Miano, A., A. Mele, and A. Prota. 2022. Fragility curves for different classes of existing RC buildings under ground differential settlements. Engineering Structures 257:114077. doi:10.1016/j.engstruct.2022.114077.
  • Milillo, P., D. Perissin, J. T. Salzer, P. Lundgren, G. Lacava, G. Milillo, and C. Serio. 2016. Monitoring dam structural health from space: Insights from novel InSAR techniques and multi-parametric modeling applied to the Pertusillo dam Basilicata, Italy. International Journal of Applied Earth Observation and Geoinformation 52:221–29. doi:10.1016/j.jag.2016.06.013.
  • Negulescu, C., and E. Foerster. 2010. Parametric studies and quantitative assessment of the vulnerability of a RC frame building exposed to differential settlements. Natural Hazards and Earth System Sciences 10 (9):1781–92. doi:https://doi.org/10.5194/nhess-10-1781-2010.
  • Polshin, D. E., and R. A. Tokar. 1957. Maximum allowable non-uniform settlement of structures. Proceedings of the 4th International Conference Soil Mechanics and Foundation Engineering, Butterworths Scientific Publications, 402–05, London, UK.
  • Ponzo, F. C., C. Iacovino, R. Ditommaso, M. Bonano, R. Lanari, F. Soldovieri, V. Cuomo, M. Rompato, P. Ciampi, and M. Rompato. 2021. Transport infrastructure SHM using integrated SAR data and on-site vibrational acquisitions: “Ponte Della Musica–Armando Trovajoli” case study. Applied Sciences 11 (14):6504. doi:10.3390/app11146504.
  • Skempton, W., and D. H. MacDonald. 1956. Allowable settlement of buildings. Proceedings of the Institution of Civil Engineers 5 (6):727–68.
  • Talledo, D. A., A. Miano, M. Bonano, F. Di Carlo, R. Lanari, M. Manunta, A. Meda, A. Mele, A. Prota, A. Saetta, et al. 2022. Satellite radar interferometry: Potential and limitations for structural assessment and monitoring. Journal of Building Engineering 46:103756. doi:https://doi.org/10.1016/j.jobe.2021.103756.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.