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A Robust Digital Beamforming on Receive in Elevation for Airborne MIMO SAR System

Yu Wang, Daiyin Zhu, Guodong Jin, Qinghao Yu, Peiyao Wang, Shilin Niu, Yuan Cheng, Di Wu

2022IEEE Transactions on Geoscience and Remote Sensing21 citationsDOI

Abstract

The echo separation issue for multiple-input multiple-output (MIMO) synthetic aperture radar (SAR) is usually regarded as a more technical challenge. Spotlighted as a promising solution to the echo separation, the well-known short-term shift-orthogonal (STSO) beamforming scheme has become increasingly popular. However, for airborne MIMO SAR systems, the digital beamforming (DBF) involved in the STSO scheme usually encounters more issues, e.g., the direction of arrival (DOA) mismatch induced by topography variation. Up to now, relatively less research on robust DBF processing has been conducted for airborne MIMO SAR systems. In this respect, an adaptive DBF technique, based on interference plus noise covariance matrix (IPNCM) reconstruction and desired signal steering vector estimation, has been proposed in this paper. IPNCM reconstruction and steering vector estimation can not only cope with the DOA mismatch problem, but also remove the desired signal component in the training data cells to increase the beamformer convergence rates. Consequently, the proposed approach really improves the array output signal-to-interference-plus-noise ratio (SINR). Moreover, numerous discussions and simulations are carried out to prove the effectiveness of proposed DBF technique under various disturbance environments. Compared with the current DBF techniques, the proposed method provides a bright application prospect for the STSO scheme.

Topics & Concepts

BeamformingMIMOComputer scienceAdaptive beamformerSynthetic aperture radarInterference (communication)Covariance matrixNoise (video)Control theory (sociology)Electronic engineeringAlgorithmTelecommunicationsArtificial intelligenceEngineeringChannel (broadcasting)Control (management)Image (mathematics)Advanced SAR Imaging TechniquesDirection-of-Arrival Estimation TechniquesRadar Systems and Signal Processing
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