Litcius/Paper detail

Microwave Tomography With LSTM-Based Processing of the Scattered Field

Alessandro Fedeli

2021IEEE Open Journal of Antennas and Propagation18 citationsDOIOpen Access PDF

Abstract

The quantitative inspection of unknown targets or bodies by means of microwave tomography requires a proper modeling of the field scattered by the structures under test, which in turn depends on several factors related to the adopted antennas and measurement configuration. In this article, a multifrequency tomographic approach in nonconstant-exponent Lebesgue spaces is enhanced by a preliminary step that processes the measured scattered field with a neural network based on long short-term memory cells. In the considered cases, this approach allows dealing with measurements in three-dimensional settings obtained with non-ideal antennas and measurement points, while retaining a canonical two-dimensional formulation of the inverse problem. The adopted data-driven model is trained with a set of simulations of cylindrical targets performed with a finite-difference time domain method, considering a simplified bistatic measurement configuration as an initial case study. The inversion procedure is then validated with numerical simulations involving cylindrical and spherical structures.

Topics & Concepts

TomographyFinite-difference time-domain methodMicrowave imagingInversion (geology)Inverse problemComputer scienceAlgorithmInverseField (mathematics)MicrowaveIdeal (ethics)Mathematical analysisAcousticsPhysicsMathematicsOpticsGeometryTelecommunicationsGeologyEpistemologyPaleontologyPhilosophyPure mathematicsStructural basinGeophysical Methods and ApplicationsMicrowave Imaging and Scattering AnalysisSoil Moisture and Remote Sensing
Microwave Tomography With LSTM-Based Processing of the Scattered Field | Litcius