Urban Applications

Auteurs

Colin-Koeniguer E., Trouve N., Yamaguchi Y., Huang Y., Ferro-Famil L., Sanchez V.D.N., Sanchez J.M.L., Monells D., Iglesias R., Fabregas X., Mallorqui J., Aguasca A., Martinez C.L.

Référence

Remote Sensing and Digital Image Processing, vol. 25, pp. 215-254, 2021

Description

The experimental result reported in this chapter review the application of (high resolution) Synthetic Aperture Radar (SAR) data to extract valuable information for monitoring urban environments in space and time. Full polarimetry is particularly useful for classification, as it allows the detection of built-up areas and to discriminate among their different types exploiting the variation of the polarimetric backscatter with the orientation, shape, and distribution of buildings and houses, and street patterns. On the other hand, polarimetric SAR data acquired in interferometric configuration can be combined for 3-D rendering through coherence optimization techniques. If multiple baselines are available, direct tomographic imaging can be employed, and polarimetry both increases separation performance and characterizes the response of each scatterer. Finally, polarimetry finds also application in differential interferometry for subsidence monitoring, for instance, by improving both the number of resolution cells in which the estimate is reliable, and the quality of these estimates.

Lien

doi:10.1007/978-3-030-56504-6_5