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Direction-of-Arrival Angle and Position Estimation for Extended Targets Using Multichannel Airborne Radar Data

Sushil Kumar Joshi, Stefan V. Baumgartner, André Barros Cardoso da Silva, Gerhard Krieger

2022IEEE Geoscience and Remote Sensing Letters17 citationsDOIOpen Access PDF

Abstract

Direction-of-arrival (DOA) angle estimation is a prerequisite for projecting the airborne radar-based target detections to ground via a geocoding operation. Most state-of-the-art DOA angle estimation methods assume one detection per target. These methods cannot be applied one-to-one on extended targets like ships because individual ships in high-resolution data are generally composed of several distinct radar detections. In this letter, four methods for estimating the DOA angle for extended targets are formulated and discussed. The performance of the proposed methods is assessed by using simultaneously acquired automatic identification system (AIS) data of real ships. Radar data from the DLR’s multichannel airborne digital beamforming synthetic aperture radar (DBFSAR) system are used to demonstrate the robustness and applicability of the proposed methods in real maritime scenarios.

Topics & Concepts

Computer scienceRadarRobustness (evolution)Remote sensingGeocodingSynthetic aperture radarDirection of arrivalRadar trackerRadar imagingComputer visionGeologyTelecommunicationsAntenna (radio)GeneBiochemistryChemistryRadar Systems and Signal ProcessingUnderwater Acoustics ResearchDirection-of-Arrival Estimation Techniques
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