In-Flight Multichannel Calibration for Along-Track Interferometric Airborne Radar

Silva, André Barros Cardoso da; Baumgartner, Stefan V.; Almeida, Felipe Queiroz de; Krieger, Gerhard

doi:10.1109/tgrs.2020.3011287

Cited by 10 publications

(2 citation statements)

References 27 publications

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“…However, in practical applications, data preprocessing is necessary in order to improve the detection performance. The preprocessing contains platform motion compensation [22,23], antenna pattern calibration [24], phase compensation [25], and baseline delay correction [21,26]. We utilize traditional methods for data preprocessing, which is not the main research content of this paper.…”

Section: Modified Multichannel Signal Modelmentioning

confidence: 99%

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A Novel Post-Doppler Parametric Adaptive Matched Filter for Airborne Multichannel Radar

et al. 2020

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The post-Doppler adaptive matched filter (PD-AMF) with constant false alarm rate (CFAR) property was developed for adaptive detection of moving targets, which is a standardized version of the post-Doppler space–time adaptive processing (PD-STAP) in practical applications. However, its detection performance is severely constrained by the training data, especially in a dense signal environment. Improper training data and contamination of moving target signals remarkably degrade the performance of disturbance suppression and result in target cancellation by self-whitening. To address these issues, a novel post-Doppler parametric adaptive matched filter (PD-PAMF) detector is proposed in the range-Doppler domain. Specifically, the detector is introduced via the post-Doppler matched filter (PD-MF) and the lower-diagonal-upper (LDU) decomposition of the disturbance covariance matrix, and the disturbance signals of the spatial sequence are modelled as an auto-regressive (AR) process for filtering. The purpose of detecting ground moving targets as well as for estimating their geographical positions and line-of-sight velocities is achieved when the disturbance is suppressed. The PD-PAMF is able to reach higher performances by using only a smaller training data size. More importantly, it is tolerant to moving target signals contained in the training data. The PD-PAMF also has a lower computational complexity. Numerical results are presented to demonstrate the effectiveness of the proposed detector.

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Section: Modified Multichannel Signal Modelmentioning

confidence: 99%

“…where the argument k denotes the kth secondary range bin and K is the training data size. UsingÂ andσ 2 P to substitute into Equations (20) and (24), respectively, we obtain the following:…”

Section: Post-doppler Parametric Adaptive Matched Filter Derivationmentioning

confidence: 99%

A Novel Post-Doppler Parametric Adaptive Matched Filter for Airborne Multichannel Radar

et al. 2020

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A Novel Phase Error Estimation Algorithm for Multi Phase Center Multi-Beam SAR System

Huang,

Wang,

Dong

2023

2023 7th International Conference on Communication and Information Systems (ICCIS)

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An Advanced Lightweight Dual-Band Digital Array SAR System: Earth Observation Imaging and Moving Target Detection

Wang

Song

Liu³

et al. 2023

IEEE Sensors J.

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In-Flight Multichannel Calibration for Along-Track Interferometric Airborne Radar

Cited by 10 publications

References 27 publications

A Novel Post-Doppler Parametric Adaptive Matched Filter for Airborne Multichannel Radar

A Novel Post-Doppler Parametric Adaptive Matched Filter for Airborne Multichannel Radar

A Novel Phase Error Estimation Algorithm for Multi Phase Center Multi-Beam SAR System

An Advanced Lightweight Dual-Band Digital Array SAR System: Earth Observation Imaging and Moving Target Detection

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