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Deep Injective Prior for Inverse Scattering

AmirEhsan Khorashadizadeh, Vahid Khorashadi-Zadeh, Sepehr Eskandari, Guy A. E. Vandenbosch, Ivan Dokmanić

2023IEEE Transactions on Antennas and Propagation11 citationsDOIOpen Access PDF

Abstract

In electromagnetic inverse scattering, the goal is to reconstruct object permittivity using scattered waves. While deep learning has shown promise as an alternative to iterative solvers, it is primarily used in supervised frameworks which are sensitive to distribution drift of the scattered fields, common in practice. Moreover, these methods typically provide a single estimate of the permittivity pattern, which may be inadequate or misleading due to noise and the ill-posedness of the problem. In this paper, we propose a data-driven framework for inverse scattering based on deep generative models. Our approach learns a low-dimensional manifold as a regularizer for recovering target permittivities. Unlike supervised methods that necessitate both scattered fields and target permittivities, our method only requires the target permittivities for training; it can then be used with any experimental setup. We also introduce a Bayesian framework for approximating the posterior distribution of the target permittivity, enabling multiple estimates and uncertainty quantification. Extensive experiments with synthetic and experimental data demonstrate that our framework outperforms traditional iterative solvers, particularly for strong scatterers, while achieving comparable reconstruction quality to state-of-the-art supervised learning methods like the U-Net.

Topics & Concepts

Inverse problemComputer scienceInverse scattering problemClutterNoise (video)Artificial intelligenceScatteringPosterior probabilityIterative methodPermittivityBayesian probabilityAlgorithmMathematicsPhysicsImage (mathematics)OpticsRadarMathematical analysisDielectricOptoelectronicsTelecommunicationsMicrowave Imaging and Scattering AnalysisGeophysical Methods and ApplicationsUnderwater Acoustics Research