We explore new possibilities offered by the recently available X-band satellite radar sensors for landslide hazard assessments on a detailed scale, with particular reference to the exploitation of Persistent Scatterers Interferometry (PSI) techniques. Special attention is paid to the impact of the improved resolution of new Xband radar imagery on the PSI results, in terms of quality and quantity of useful information. This evaluatiois supported by theoretical modelling as well as by the comparison of results from X-band (CSK) and C-ban(ENVISAT) PSI for two areas of interest: one in Italy and the other in Switzerland. It is demonstrated that with respect to medium resolution ENVISAT PS processing, fewer CSK high resolution images are sufficient to achieve comparable precision of the mean displacement velocity estimates. This, together with the shorter revisit times provided by the CSK constellation, can be very important when dealing with emergency situations. Furthermore, it is quantified that from about 3 to 11 times greater PS densities are obtained with the higher resolution X-band data. This implies more information about ground surface displacements as well as improved landslide monitoring and slope instability investigation capabilities. Furthermore, ground displacement measurements can be interpreted without local knowledge of the focus area or in situ controls, and, nonetheless, guide single hillslope instability assessments with support of Google Earth and its high resolution optical imagery. This “blind” approach will allow one to monitor remote and poorly known regions at high risk of potentially disastrous slope failures.

Using COSMO/SkyMed X-band and ENVISAT C-band SAR interferometry for landslides analysis / Bovenga, F.; Wasowski, J.; Nitti, D. O.; Nutricato, R.; Chiaradia, M. T.. - In: REMOTE SENSING OF ENVIRONMENT. - ISSN 0034-4257. - 119:(2012), pp. 272-285. [10.1016/j.rse.2011.12.013]

Using COSMO/SkyMed X-band and ENVISAT C-band SAR interferometry for landslides analysis

Bovenga, F.;Wasowski, J.;Nutricato, R.;
2012-01-01

Abstract

We explore new possibilities offered by the recently available X-band satellite radar sensors for landslide hazard assessments on a detailed scale, with particular reference to the exploitation of Persistent Scatterers Interferometry (PSI) techniques. Special attention is paid to the impact of the improved resolution of new Xband radar imagery on the PSI results, in terms of quality and quantity of useful information. This evaluatiois supported by theoretical modelling as well as by the comparison of results from X-band (CSK) and C-ban(ENVISAT) PSI for two areas of interest: one in Italy and the other in Switzerland. It is demonstrated that with respect to medium resolution ENVISAT PS processing, fewer CSK high resolution images are sufficient to achieve comparable precision of the mean displacement velocity estimates. This, together with the shorter revisit times provided by the CSK constellation, can be very important when dealing with emergency situations. Furthermore, it is quantified that from about 3 to 11 times greater PS densities are obtained with the higher resolution X-band data. This implies more information about ground surface displacements as well as improved landslide monitoring and slope instability investigation capabilities. Furthermore, ground displacement measurements can be interpreted without local knowledge of the focus area or in situ controls, and, nonetheless, guide single hillslope instability assessments with support of Google Earth and its high resolution optical imagery. This “blind” approach will allow one to monitor remote and poorly known regions at high risk of potentially disastrous slope failures.
2012
Using COSMO/SkyMed X-band and ENVISAT C-band SAR interferometry for landslides analysis / Bovenga, F.; Wasowski, J.; Nitti, D. O.; Nutricato, R.; Chiaradia, M. T.. - In: REMOTE SENSING OF ENVIRONMENT. - ISSN 0034-4257. - 119:(2012), pp. 272-285. [10.1016/j.rse.2011.12.013]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11589/3928
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