UAV-Based Bistatic SAR-Imaging Using a Stationary Repeater

Grathwohl, Alexander; Meinecke, Benedikt; Widmann, Marius; Kanz, Julian; Waldschmidt, Christian

doi:10.1109/jmw.2023.3253667

Cited by 4 publications

(2 citation statements)

References 35 publications

(44 reference statements)

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“…In the correction chain, the estimation of the frequency offset that causes the time drift δ t is estimated first. The linear drift of the beat frequency (see Section II) is applied to the LoS beat frequency models in (23) and (24). The frequencies are linear functions of the slow time index k with a slope…”

Section: A Frequency Offsetmentioning

confidence: 99%

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Constellation Estimation, Coherent Signal Processing, and Multiperspective Imaging in an Uncoupled Bistatic Cooperative Radar Network

Fenske,

Koegel,

Ghasemi

et al. 2024

IEEE J. Microw.

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Cooperative radar networks are a promising technology in various areas, such as vehicleto-infrastructure networks for automotive radar and radar remote sensing with UAVs. The use of widely distributed radar networks enables the detection of targets with complex scattering characteristics, as their coherent bistatic images are superior for forward scattering, and each monostatic image illuminates a scene from a different perspective. This work introduces a signal processing scheme that addresses two main challenges in this area: the coherent signal processing of uncoupled radar nodes and the self-localization of the nodes for radar image combination. A comprehensive signal model that incorporates time, frequency and phase incoherency is introduced. Based on this, an algorithm for constellation estimation, synchronization up to the carrier phase level, and multiperspective imaging is developed. The proposed approach is experimentally verified using commercially available 77 GHz single-input/multiple-output radar nodes. The measurements for different radar constellations and various target scenes show a self-localization accuracy below 6 cm in range and below 2.5 • for the incident angles. The resulting images of various scenes clearly indicate an information gain compared to single monostatic images due to the combination of bistatic and multiperspective monostatic images.

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Section: A Frequency Offsetmentioning

confidence: 99%

“…The use of repeater nodes to form a multistatic network is introduced in [24] and [4]. This approach relaxes the synchronization requirements, as all radar signals are generated by the same node and are forwarded by a repeater node.…”

Section: Introductionmentioning

confidence: 99%

Constellation Estimation, Coherent Signal Processing, and Multiperspective Imaging in an Uncoupled Bistatic Cooperative Radar Network

Fenske,

Koegel,

Ghasemi

et al. 2024

IEEE J. Microw.

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Uncoupled Digital Radars Creating a Coherent Sensor Network

Aguilar,

Werbunat,

Janoudi

et al. 2024

IEEE J. Microw.

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On the Synchronization of Uncoupled Multistatic PMCW Radars

Werbunat,

Aguilar,

Almarashly

et al. 2024

IEEE Trans. Microwave Theory Techn.

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Radar networks and multistatic synthetic aperture radars (SARs) allow overcoming the limitations of single radar sensors. However, a good synchronization of the radar sensors is crucial to avoid performance loss due to phase noise and frequency offsets. While this is usually done via cables or dedicated synchronization signals, digital radars allow for new techniques. This work proposes a new concept for the synchronization of phase-modulated continuous wave (PMCW) radars. The synchronization is performed solely by digital signal processing on the receiver side, adapting techniques known from digital communications. It mitigates effects caused by incoherency, which are phase noise, carrier frequency offsets and phase deviations of the local oscillator (LO), and sampling frequency offsets. At first, the impact of these effects is mathematically derived and analyzed in detail. Then, the proposed synchronization concept is presented, and its performance is thoroughly evaluated. Very good results are obtained not only in simulations but also in measurements with a 77-GHz radar demonstrator.

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UAV-Based Bistatic SAR-Imaging Using a Stationary Repeater

Cited by 4 publications

References 35 publications

Constellation Estimation, Coherent Signal Processing, and Multiperspective Imaging in an Uncoupled Bistatic Cooperative Radar Network

Constellation Estimation, Coherent Signal Processing, and Multiperspective Imaging in an Uncoupled Bistatic Cooperative Radar Network

Uncoupled Digital Radars Creating a Coherent Sensor Network

On the Synchronization of Uncoupled Multistatic PMCW Radars

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