Review Article

A Complementary Overview and Challenges in Radar Cross Section Modeling of Phased Array Antennas

Volume: 5 Number: 1 June 21, 2024
Ömer Burak Güngördü *, Ali Kara , Sinan Akşimşek
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A Complementary Overview and Challenges in Radar Cross Section Modeling of Phased Array Antennas

Abstract

The radar cross-section (RCS) is a critical factor in the design and performance of modern airborne weapon systems. These systems utilize phased array antennas due to their low profile, advanced beamforming, and angle measurement capabilities. The effect of phased array antennas on platform RCS can be crucial. Addressing the RCS of phased array antennas involves solving both structural and antenna mode scattering. Each component presents different challenges for computation and requires specific RCS reduction techniques. This short review delves into various existing methods for computing antenna and structural mode RCS and offers insights into their application. Simulating the RCS of large array antennas presents significant challenges due to the high demands on computing resources. Additionally, this review highlights existing solutions aimed at reducing the simulation times and memory usage in RCS modeling while maintaining accurate results. However, further advancements are necessary to simulate large scale array antennas more efficiently and accurately.

Keywords

Radar Cross Section , Phased Array , Structural Mode , Antenna Mode RCS , Stealth

References

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Details

Primary Language

English

Subjects

Electronic Warfare , Antennas and Propagation

Journal Section

Review Article

Authors

Early Pub Date

June 20, 2024

Publication Date

June 21, 2024

Submission Date

June 1, 2024

Acceptance Date

June 19, 2024

Published in Issue

Year 2024 Volume: 5 Number: 1

DOI

https://doi.org/10.53525/jster.1493809

IZ

https://izlik.org/JA36UR65XA

Cite

RIS / Bibtex
APA
Güngördü, Ö. B., Kara, A., & Akşimşek, S. (2024). A Complementary Overview and Challenges in Radar Cross Section Modeling of Phased Array Antennas. Journal of Science, Technology and Engineering Research, 5(1), 86-91. https://doi.org/10.53525/jster.1493809
AMA
1.Güngördü ÖB, Kara A, Akşimşek S. A Complementary Overview and Challenges in Radar Cross Section Modeling of Phased Array Antennas. Journal of Science, Technology and Engineering Research. 2024;5(1):86-91. doi:10.53525/jster.1493809
Chicago
Güngördü, Ömer Burak, Ali Kara, and Sinan Akşimşek. 2024. “A Complementary Overview and Challenges in Radar Cross Section Modeling of Phased Array Antennas”. Journal of Science, Technology and Engineering Research 5 (1): 86-91. https://doi.org/10.53525/jster.1493809.
EndNote
Güngördü ÖB, Kara A, Akşimşek S (June 1, 2024) A Complementary Overview and Challenges in Radar Cross Section Modeling of Phased Array Antennas. Journal of Science, Technology and Engineering Research 5 1 86–91.
IEEE
[1]Ö. B. Güngördü, A. Kara, and S. Akşimşek, “A Complementary Overview and Challenges in Radar Cross Section Modeling of Phased Array Antennas”, Journal of Science, Technology and Engineering Research, vol. 5, no. 1, pp. 86–91, June 2024, doi: 10.53525/jster.1493809.
ISNAD
Güngördü, Ömer Burak - Kara, Ali - Akşimşek, Sinan. “A Complementary Overview and Challenges in Radar Cross Section Modeling of Phased Array Antennas”. Journal of Science, Technology and Engineering Research 5/1 (June 1, 2024): 86-91. https://doi.org/10.53525/jster.1493809.
JAMA
1.Güngördü ÖB, Kara A, Akşimşek S. A Complementary Overview and Challenges in Radar Cross Section Modeling of Phased Array Antennas. Journal of Science, Technology and Engineering Research. 2024;5:86–91.
MLA
Güngördü, Ömer Burak, et al. “A Complementary Overview and Challenges in Radar Cross Section Modeling of Phased Array Antennas”. Journal of Science, Technology and Engineering Research, vol. 5, no. 1, June 2024, pp. 86-91, doi:10.53525/jster.1493809.
Vancouver
1.Ömer Burak Güngördü, Ali Kara, Sinan Akşimşek. A Complementary Overview and Challenges in Radar Cross Section Modeling of Phased Array Antennas. Journal of Science, Technology and Engineering Research. 2024 Jun. 1;5(1):86-91. doi:10.53525/jster.1493809

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