Synthetic aperture interferometric imaging using a passive microwave coding device

Abstract: There has been growing interest in the use of microwave synthetic aperture radiometers since their could solve the trade-off between the image resolution and the antennas aperture size. Compared to classical techniques, SAIR (Synthetic Aperture Interferometric Radiometer) can reach a large field of view (FOV) and high imaging rate. Nevertheless, the architecture of a conventional radiometer still bulky and costly. In this paper, a passive combining technique is proposed to reduce the hardware complexity as wel… Show more

“…Even if this paper focuses only on the use of matrix inversion reconstruction, it is possible to propose an alternative based on Fast Fourier Transforms to the R ψ + matrix. Similarly to the approaches developed in [20], [24], [38], this work proposes to simplify image reconstructions by using an intermediate step of estimating the correlation of antenna signals. However, the formalism proposed here is distinguished by the use of a fully matrix-based method, in opposition to the previously developed equalization techniques [39].…”

Enhancing Millimeter-Wave Computational Interferometric Imaging

“…Even if this paper focuses only on the use of matrix inversion reconstruction, it is possible to propose an alternative based on Fast Fourier Transforms to the R ψ + matrix. Similarly to the approaches developed in [20], [24], [38], this work proposes to simplify image reconstructions by using an intermediate step of estimating the correlation of antenna signals. However, the formalism proposed here is distinguished by the use of a fully matrix-based method, in opposition to the previously developed equalization techniques [39].…”

Enhancing Millimeter-Wave Computational Interferometric Imaging

Millimeter wave computational interferometric radiometer

Millimeter-Wave Computational Interferometric Imaging using a Chaotic Cavity