Imaging of the Earth's surface by spaceborne synthetic aperture radars (SAR) may be
adversely affected by the ionosphere, as the temporal dispersion of radio waves in the …

We propose a robust technique for reducing the ionospheric distortions in spaceborne
synthetic aperture radar (SAR) images. It is based on probing the terrain on two distinct …

The assumption of weak scattering is standard for the mathematical analysis of synthetic
aperture radar (SAR), as it helps linearize the inverse problem via the first Born …

We discuss the single-polarization SAR imaging with the Faraday rotation (FR) taken into
account. The FR leads to a reduction in the intensity of the received radar signal that varies …

Imaging of the Earth's surface by spaceborne synthetic aperture radars (SAR) may be
adversely affected by the ionosphere, as the temporal dispersion of radio waves gives rise to …

In this work we develop a new reproducing kernel Hilbert space (RKHS) framework for
inverse scattering problems using the Born approximation. We assume we have …

The model for radar targets described in Chapter 7 allowed us, in particular, to identify a
physically meaningful observable quantity in SAR imaging. It was a slowly varying amplitude …