Osservazione dei fenomeni deformativi nel centro di Roma. Dall'applicazione di tecniche avanzate DInSAR, all'analisi qualitativa della natura del rumore dei dati COSMO Sky-Med

Massimo Morigi


This work was created to focus the attention on a particular aspect of the
equivocation (aliasing) of the measurements made with Differential SAR interferometry (DInSAR) X-band for the presence of snow. Such equivocation
emerge after a careful interpretation of the results obtained through the
application of techniques Advanced DInSAR (A-DInSAR) for the observation of
the deformation phenomena of the monumental structures in the center of
Rome. The qualitative analysis have enabled the identification of the appropriate
tools of analysis.
The work was developed through the employment of various tools of software
SARPROZ and is part of a PhD in Geoinformation for the University of Tor

Parole chiave

telerilevamento; sar; insar, interferometria differenziale

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Riferimenti bibliografici

Baghdadi, N., et al., (1999). Accuraty of wet snow mapping using similated Radarsat backscattering coefficients from osserved snow cover characteristics. International Journal of Remote Sensing, 20; pp. 2049-

Berardino P., et al,. (2002). A new algorithm for surface deformation monitoring based on small baseline differeential SAR interferograms.

IEEE Trans. Geosci. Remote Sensing. 40; 2375-2383.

Bozzano, F., et al., (2011). Scenario di danneggiamento indotto nella città di Roma dalla sequenza sismica aquilana del 2009. Italian Journal of Engineering Geology and Environment, vol. 2.

Casagli, N., et al., (2012). Satellite radar interferometry for monitoring and early-stage warning of structural instability in archaeological sites. Journal of Geophysics and Engineering, 9 (4), S10.

Ferretti, A., et al,. (2001). Permanent scatterers in SAR Inteferometry. IEEE Transaction on Geoscience and Remote Sensing 39 (1); pp.


Ferretti, A., et al,. (2001) - Permanent scatterers in SAR interferometry, IEEE Transactions of Geoscience of Remote Sensing, 39; pp.


Ferretti, A., et al,. (2003). Valutazione degli effetti di scavi in falda sui cedimenti strutturali di edifici mediante utilizzo di tecniche

satellitari SAR. Atti del Convegno - Crolli e affidabilità delle strutture, Napoli.

Ferretti, A., et al,. (2011). A new algorithm for processing interferometric data-stacks: SqueeSAR. Geoscience and Remote Sensing, IEEE Transactions on, 49(9); 3460-3470.

Fossati, D., (2003).Tecnologie innovative di telerilevamento satellitare per la gestione del territorio. The example of the Oltrepo Pavese

(Lombardia, Italy), Engineering Geology, 88(3-4); pp. 240-259.

Hallikainen, et al., (1993). Application of ERS-1 SAR data to snow mapping. Proceedings of the First ERS-1 Symposium: Space at the Service of our Environment, Cannes, France. ESA SP-359, vol.2; pp. 589-594.

Koskinen, J., et al., (1994). Capability of radar and microwave radiometer to classify snow types in forested areas. IGRASS'94, vol.

; pp. 1283-1286.

Marsella, M.A., et al., (2008). Two-scale surface deformation analysis via the SBAS-DInSAR technique: a case study of the city of Rome,

Italy. International Journal of Remote Sensing, vol. 29:6; pp. 1665-1684.

Marsella, M.A., et al., (2011). Long-term deformation analysis of historical buildings through the advanced SBAS-DInSAR technique:

the case study of the city of Rome, Italy. Journal of Geophysics and Engineering, vol. 8; pp. 1-12.

Marsella M.A., (2012) Analysis of ground deformation using SBAS-DInSAR technique applied to Cosmo-Skymed images, the test case

of Rome urban area Proc. SPIE Remote Sensing 2012 Symposium.

Marsella, M.A., (2013) An application of the SBAS DInSAR technique for the assessment of structural damage in the city of Rome (Italy) Submit to Structure and Infrastructure Engineering Maintenance, Management, Life- Cycle Designand Performance Taylor&Francis


Perissin, D., et al, (2011). SARPROZ manual - link 9.

Perissin, D., et al, (2011a). Subway Tunnels Identification through Cosmo-SkyMed PSInSAR Analysis in Shanghai. In Processing of IEEE

Geoscience and Remote Sensing Symposium, Vancouver, BC, Canada, 24–29 July 2011; pp. 1267–1270.

Perissin, D., (2012). Repeat-Pass SAR Interferometry With Partially Coherent Targets. IEEE Transactions on Geoscience and Remote Sensing, 50(1); pp. 271-280.

Rott, H., et al,. (1993). Snow and glacier investigation by ERS-1 SAR-first result. Proccedings of the First ERS-1 Symposium: Space

at the Service of our Environment, Cannes, France. ESA SP-359, vol.2, pp. 577-582.

Stramondo, S., (2008). Subsidence induced by urbanization in the city of Roma detected by advance InSAR technique and geotechnical investigations. Remote Sensing of Environment

(6); pp. 3160-3172.

DOI: https://doi.org/10.48258/arc.v6i2.883


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