Ultra Geniş Bantli Radar Sistemleri için Frekans Seçici Yüzey Tabanli Yama Anten Dizisi Tasarimi

Ercan Koseni; Ozgur Ozdemir

doi:10.1109/ELECO64362.2024.10847225

Ultra Geniş Bantli Radar Sistemleri için Frekans Seçici Yüzey Tabanli Yama Anten Dizisi Tasarimi

Translated title of the contribution: Design of Frequency Selective Surface-Based Patch Antenna Array for Ultra-Wideband Radar Systems

Ercan Koseni, Ozgur Ozdemir

Department of Electronics and Communication Engineering

Tay Yazilim Teknolojileri A.Ş.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

In this study, a frequency-selective surface (FSS)-based patch antenna array design was developed to create a high-gain antenna structure for ultra-wideband (UWB) radar systems operating within the 3.1 - 4.8 GHz range. Initially, two-element and four-element patch antenna arrays were constructed. Subsequently, FSS reflectors were employed to suppress the back lobes and enhance the gain. To ensure the FSS exhibited effective reflective characteristics within the specified frequency band, the S11 and S21 parameters of the unit cell structure were optimized. The unit cells were periodically arranged and positioned behind the antenna arrays at a specific air gap distance. The designed FSS structure resulted in a gain increase of 3.55 dBi for the two-element array and 3.41 dBi for the four-element array. Additionally, S11 measurements of the designed antenna arrays were conducted, revealing alignment with the simulation results. These findings indicate that FSS-based patch antenna arrays offer high-performance antenna solutions for UWB radar applications.

Translated title of the contribution	Design of Frequency Selective Surface-Based Patch Antenna Array for Ultra-Wideband Radar Systems
Original language	Turkish
Title of host publication	Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9798331518035
DOIs	https://doi.org/10.1109/ELECO64362.2024.10847225
Publication status	Published - 2024
Event	2024 Electrical, Electronics and Biomedical Engineering Conference at 15th National Conference on Electrical and Electronics Engineering, ELECO 2024 - Bursa, Turkey Duration: 28 Nov 2024 → 30 Nov 2024

Publication series

Name	Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings

Conference

Conference	2024 Electrical, Electronics and Biomedical Engineering Conference at 15th National Conference on Electrical and Electronics Engineering, ELECO 2024
Country/Territory	Turkey
City	Bursa
Period	28/11/24 → 30/11/24

Bibliographical note

Publisher Copyright:
© 2024 IEEE.

Access to Document

10.1109/ELECO64362.2024.10847225

Cite this

Koseni, E., & Ozdemir, O. (2024). Ultra Geniş Bantli Radar Sistemleri için Frekans Seçici Yüzey Tabanli Yama Anten Dizisi Tasarimi. In Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings (Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ELECO64362.2024.10847225

Koseni, Ercan ; Ozdemir, Ozgur. / Ultra Geniş Bantli Radar Sistemleri için Frekans Seçici Yüzey Tabanli Yama Anten Dizisi Tasarimi. Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings. Institute of Electrical and Electronics Engineers Inc., 2024. (Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings).

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abstract = "In this study, a frequency-selective surface (FSS)-based patch antenna array design was developed to create a high-gain antenna structure for ultra-wideband (UWB) radar systems operating within the 3.1 - 4.8 GHz range. Initially, two-element and four-element patch antenna arrays were constructed. Subsequently, FSS reflectors were employed to suppress the back lobes and enhance the gain. To ensure the FSS exhibited effective reflective characteristics within the specified frequency band, the S11 and S21 parameters of the unit cell structure were optimized. The unit cells were periodically arranged and positioned behind the antenna arrays at a specific air gap distance. The designed FSS structure resulted in a gain increase of 3.55 dBi for the two-element array and 3.41 dBi for the four-element array. Additionally, S11 measurements of the designed antenna arrays were conducted, revealing alignment with the simulation results. These findings indicate that FSS-based patch antenna arrays offer high-performance antenna solutions for UWB radar applications.",

author = "Ercan Koseni and Ozgur Ozdemir",

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doi = "10.1109/ELECO64362.2024.10847225",

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Koseni, E & Ozdemir, O 2024, Ultra Geniş Bantli Radar Sistemleri için Frekans Seçici Yüzey Tabanli Yama Anten Dizisi Tasarimi. in Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings. Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings, Institute of Electrical and Electronics Engineers Inc., 2024 Electrical, Electronics and Biomedical Engineering Conference at 15th National Conference on Electrical and Electronics Engineering, ELECO 2024, Bursa, Turkey, 28/11/24. https://doi.org/10.1109/ELECO64362.2024.10847225

Ultra Geniş Bantli Radar Sistemleri için Frekans Seçici Yüzey Tabanli Yama Anten Dizisi Tasarimi. / Koseni, Ercan; Ozdemir, Ozgur.
Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings. Institute of Electrical and Electronics Engineers Inc., 2024. (Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Ultra Geniş Bantli Radar Sistemleri için Frekans Seçici Yüzey Tabanli Yama Anten Dizisi Tasarimi

AU - Koseni, Ercan

AU - Ozdemir, Ozgur

PY - 2024

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N2 - In this study, a frequency-selective surface (FSS)-based patch antenna array design was developed to create a high-gain antenna structure for ultra-wideband (UWB) radar systems operating within the 3.1 - 4.8 GHz range. Initially, two-element and four-element patch antenna arrays were constructed. Subsequently, FSS reflectors were employed to suppress the back lobes and enhance the gain. To ensure the FSS exhibited effective reflective characteristics within the specified frequency band, the S11 and S21 parameters of the unit cell structure were optimized. The unit cells were periodically arranged and positioned behind the antenna arrays at a specific air gap distance. The designed FSS structure resulted in a gain increase of 3.55 dBi for the two-element array and 3.41 dBi for the four-element array. Additionally, S11 measurements of the designed antenna arrays were conducted, revealing alignment with the simulation results. These findings indicate that FSS-based patch antenna arrays offer high-performance antenna solutions for UWB radar applications.

AB - In this study, a frequency-selective surface (FSS)-based patch antenna array design was developed to create a high-gain antenna structure for ultra-wideband (UWB) radar systems operating within the 3.1 - 4.8 GHz range. Initially, two-element and four-element patch antenna arrays were constructed. Subsequently, FSS reflectors were employed to suppress the back lobes and enhance the gain. To ensure the FSS exhibited effective reflective characteristics within the specified frequency band, the S11 and S21 parameters of the unit cell structure were optimized. The unit cells were periodically arranged and positioned behind the antenna arrays at a specific air gap distance. The designed FSS structure resulted in a gain increase of 3.55 dBi for the two-element array and 3.41 dBi for the four-element array. Additionally, S11 measurements of the designed antenna arrays were conducted, revealing alignment with the simulation results. These findings indicate that FSS-based patch antenna arrays offer high-performance antenna solutions for UWB radar applications.

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BT - Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings

PB - Institute of Electrical and Electronics Engineers Inc.

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Y2 - 28 November 2024 through 30 November 2024

ER -

Koseni E, Ozdemir O. Ultra Geniş Bantli Radar Sistemleri için Frekans Seçici Yüzey Tabanli Yama Anten Dizisi Tasarimi. In Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings. Institute of Electrical and Electronics Engineers Inc. 2024. (Electrical-Electronics and Biomedical Engineering Conference, ELECO 2024 - Proceedings). doi: 10.1109/ELECO64362.2024.10847225

Ultra Geniş Bantli Radar Sistemleri için Frekans Seçici Yüzey Tabanli Yama Anten Dizisi Tasarimi

Abstract

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Bibliographical note

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