Robust Pareto-Optimal Radar Receive Filter Design for Noise and Sidelobe Suppression

Costas A. Kokke; Mario Coutiño; Richard Heusdens; Geert Leus; Laura Anitori

doi:10.23919/EUSIPCO58844.2023.10290001

Robust Pareto-Optimal Radar Receive Filter Design for Noise and Sidelobe Suppression

Costas A. Kokke, Mario Coutiño, Richard Heusdens, Geert Leus, Laura Anitori

Signal Processing Systems

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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Abstract

Integrated sidelobe level is a useful measure to quantify robustness of a waveform-filter pair to unknown range clutter and multiple closely located targets. Sidelobe suppression on receive will incur a loss in the signal to noise ratio after pulse compression. We derive a pulse compression filter that has the greatest integrated sidelobe suppression possible for a given acceptable signal to noise ratio loss. The solution is given in a closed form, which can be adjusted using a single parameter to chose between greater sidelobe or interference and noise suppression. We verify the derived filter using simulations, comparing it to other proposed mismatched filter designs. To expand the robustness of the filter, we additionally investigate noise uncertainty robustness. We derive two robustness measures for noise uncertainty and analyze the performance through simulation.

Original language	English
Title of host publication	Proceedings of the 2023 31st European Signal Processing Conference (EUSIPCO)
Publisher	IEEE
Pages	1589-1593
Number of pages	5
ISBN (Electronic)	978-9-4645-9360-0
ISBN (Print)	979-8-3503-2811-0
DOIs	https://doi.org/10.23919/EUSIPCO58844.2023.10290001
Publication status	Published - 2023
Event	31st European Signal Processing Conference - Helsinki, Finland Duration: 4 Sept 2023 → 8 Sept 2023 Conference number: 31

Publication series

Name	European Signal Processing Conference
ISSN (Print)	2219-5491
ISSN (Electronic)	2076-1465

Conference

Conference	31st European Signal Processing Conference
Abbreviated title	EUSIPCO 2023
Country/Territory	Finland
City	Helsinki
Period	4/09/23 → 8/09/23

Bibliographical note

Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care
Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.

Keywords

robust pulse compression
radar signal processing
filter optimization
integrated sidelobe ratio

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Robust_Pareto-Optimal_Radar_Receive_Filter_Design_for_Noise_and_Sidelobe_SuppressionFinal published version, 350 KB

Cite this

@inproceedings{f4c104e3f9bb4bd2bbde039f118e3883,

title = "Robust Pareto-Optimal Radar Receive Filter Design for Noise and Sidelobe Suppression",

abstract = "Integrated sidelobe level is a useful measure to quantify robustness of a waveform-filter pair to unknown range clutter and multiple closely located targets. Sidelobe suppression on receive will incur a loss in the signal to noise ratio after pulse compression. We derive a pulse compression filter that has the greatest integrated sidelobe suppression possible for a given acceptable signal to noise ratio loss. The solution is given in a closed form, which can be adjusted using a single parameter to chose between greater sidelobe or interference and noise suppression. We verify the derived filter using simulations, comparing it to other proposed mismatched filter designs. To expand the robustness of the filter, we additionally investigate noise uncertainty robustness. We derive two robustness measures for noise uncertainty and analyze the performance through simulation.",

keywords = "robust pulse compression, radar signal processing, filter optimization, integrated sidelobe ratio",

author = "Kokke, {Costas A.} and Mario Couti{\~n}o and Richard Heusdens and Geert Leus and Laura Anitori",

note = "Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public.; 31st European Signal Processing Conference, EUSIPCO 2023 ; Conference date: 04-09-2023 Through 08-09-2023",

year = "2023",

doi = "10.23919/EUSIPCO58844.2023.10290001",

language = "English",

isbn = "979-8-3503-2811-0",

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publisher = "IEEE",

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}

Kokke, CA, Coutiño, M, Heusdens, R , Leus, G & Anitori, L 2023, Robust Pareto-Optimal Radar Receive Filter Design for Noise and Sidelobe Suppression. in Proceedings of the 2023 31st European Signal Processing Conference (EUSIPCO). European Signal Processing Conference, IEEE, pp. 1589-1593, 31st European Signal Processing Conference, Helsinki, Finland, 4/09/23. https://doi.org/10.23919/EUSIPCO58844.2023.10290001

Robust Pareto-Optimal Radar Receive Filter Design for Noise and Sidelobe Suppression. / Kokke, Costas A.; Coutiño, Mario; Heusdens, Richard et al.
Proceedings of the 2023 31st European Signal Processing Conference (EUSIPCO). IEEE, 2023. p. 1589-1593 (European Signal Processing Conference).

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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T1 - Robust Pareto-Optimal Radar Receive Filter Design for Noise and Sidelobe Suppression

AU - Kokke, Costas A.

AU - Coutiño, Mario

AU - Heusdens, Richard

AU - Leus, Geert

AU - Anitori, Laura

N1 - Conference code: 31

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N2 - Integrated sidelobe level is a useful measure to quantify robustness of a waveform-filter pair to unknown range clutter and multiple closely located targets. Sidelobe suppression on receive will incur a loss in the signal to noise ratio after pulse compression. We derive a pulse compression filter that has the greatest integrated sidelobe suppression possible for a given acceptable signal to noise ratio loss. The solution is given in a closed form, which can be adjusted using a single parameter to chose between greater sidelobe or interference and noise suppression. We verify the derived filter using simulations, comparing it to other proposed mismatched filter designs. To expand the robustness of the filter, we additionally investigate noise uncertainty robustness. We derive two robustness measures for noise uncertainty and analyze the performance through simulation.

AB - Integrated sidelobe level is a useful measure to quantify robustness of a waveform-filter pair to unknown range clutter and multiple closely located targets. Sidelobe suppression on receive will incur a loss in the signal to noise ratio after pulse compression. We derive a pulse compression filter that has the greatest integrated sidelobe suppression possible for a given acceptable signal to noise ratio loss. The solution is given in a closed form, which can be adjusted using a single parameter to chose between greater sidelobe or interference and noise suppression. We verify the derived filter using simulations, comparing it to other proposed mismatched filter designs. To expand the robustness of the filter, we additionally investigate noise uncertainty robustness. We derive two robustness measures for noise uncertainty and analyze the performance through simulation.

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Robust Pareto-Optimal Radar Receive Filter Design for Noise and Sidelobe Suppression

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Keywords

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