Title :
Performance of Building Height Estimation Using High-Resolution PolInSAR Images
Author :
Colin-Koeniguer, Elise ; TrouveÌ, Nicolas
Author_Institution :
Modeling & Inf. Process. Dept., French Aerosp. Lab. (ONERA), Palaiseau, France
Abstract :
This paper investigates the use of polarimetry to improve the estimation of the height of buildings in high-resolution synthetic aperture radar (SAR) images. Polarimetric coherence optimization techniques solve the problem of layover effects in urban scenes by allowing a phase separation of the scatterers sharing the same resolution cell. Bare soil elevation estimation is also improved by the polarimetric phase diversity. First, we present an analysis of the statistical modeling of the generalized coherence set. A building height estimation method is then derived from this analysis. Finally, the method is tested and quantitatively validated over an X-band polarimetric interferometric SAR (PolInSAR) airborne image acquired in a single-pass mode, containing a set of 140 different buildings with ground truth.
Keywords :
airborne radar; building; electromagnetic wave scattering; height measurement; natural scenes; phase separation; radar imaging; radar interferometry; radar polarimetry; radar resolution; remote sensing by radar; soil; statistical analysis; synthetic aperture radar; X-band polarimetric interferometric SAR; bare soil elevation estimation; building height estimation performance; generalized coherence set; high resolution PolInSAR airborne image; layover effect; phase separation; polarimetric coherence optimization technique; polarimetric phase diversity; resolution cell; scatterer; statistical modeling; synthetic aperture radar; urban scene; Buildings; Coherence; Estimation; Shape; Sociology; Vectors; Coherence optimization; interferometry; polarimetry; synthetic aperture radar (SAR); three-dimensional rendering; urban;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2013.2293605
