Performance Investigation of Linearly Arranged Circular, Circular Planer, Rectangular, and Concentric Circular Antenna Arrays Using Robust NVL Techniques

Imteaz Rahaman; Md Shakiul Jafor; Narinderjit Singh Sawaran Singh; Md Ashraful Haque; Antar Kumar Biswas; Md Afzalur Rahman; M. Azman B. Zakariya; Ghulam E.Mustafa Abro; Nayan Sarker

doi:10.3390/app122211481

Performance Investigation of Linearly Arranged Circular, Circular Planer, Rectangular, and Concentric Circular Antenna Arrays Using Robust NVL Techniques

Imteaz Rahaman^*, Md Shakiul Jafor, Narinderjit Singh Sawaran Singh, Md Ashraful Haque^*, Antar Kumar Biswas, Md Afzalur Rahman, M. Azman B. Zakariya, Ghulam E.Mustafa Abro, Nayan Sarker

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

In this research, linearly arranged circular antenna array (LCAA), linearly arranged circular planer antenna array (LCPAA), linearly arranged rectangular antenna array (LRAA), and linearly arranged concentric circular antenna array (LCCAA) are analyzed using robust techniques. These four antenna arrays are briefly investigated to evaluate their beam width performance, ability to detect a false signal, and SINR power pattern performances. Robust techniques—fixed diagonal loading (FDL), optimal diagonal loading (ODL), variable diagonal loading (VDL), and new variable loading (NVL) techniques—are applied, and the NVL technique is found to be superior and provides the best performance with the proposed LCCAA beamformer. With an SINR of 40.45 dB, 40.29 dB, 40.18 dB, and 39.99 dB for 0°, 1°, 2°, and 3° disparity angles, respectively, and output powers of −0.019 dB, −0.076 dB, and −0.171 dB for 1°, 2°, and 3° disparity angles, respectively, LCCAA beamformers using the NVL technique outperform other beamformers with different robust approaches.

Original language	English
Article number	11481
Journal	Applied Sciences (Switzerland)
Volume	12
Issue number	22
DOIs	https://doi.org/10.3390/app122211481
State	Published - Nov 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2022 by the authors.

Keywords

FDL
LCCAA
NVL
ODL
VDL
beam width
interference
optimal
robust techniques
sidelobe level

ASJC Scopus subject areas

General Materials Science
Instrumentation
General Engineering
Process Chemistry and Technology
Computer Science Applications
Fluid Flow and Transfer Processes

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10.3390/app122211481

Cite this

Rahaman, I., Jafor, M. S., Singh, N. S. S., Haque, M. A., Biswas, A. K., Rahman, M. A., Zakariya, M. A. B., Abro, G. E. M., & Sarker, N. (2022). Performance Investigation of Linearly Arranged Circular, Circular Planer, Rectangular, and Concentric Circular Antenna Arrays Using Robust NVL Techniques. Applied Sciences (Switzerland), 12(22), Article 11481. https://doi.org/10.3390/app122211481

@article{00d3962450684c558140183ac12ce107,

title = "Performance Investigation of Linearly Arranged Circular, Circular Planer, Rectangular, and Concentric Circular Antenna Arrays Using Robust NVL Techniques",

abstract = "In this research, linearly arranged circular antenna array (LCAA), linearly arranged circular planer antenna array (LCPAA), linearly arranged rectangular antenna array (LRAA), and linearly arranged concentric circular antenna array (LCCAA) are analyzed using robust techniques. These four antenna arrays are briefly investigated to evaluate their beam width performance, ability to detect a false signal, and SINR power pattern performances. Robust techniques—fixed diagonal loading (FDL), optimal diagonal loading (ODL), variable diagonal loading (VDL), and new variable loading (NVL) techniques—are applied, and the NVL technique is found to be superior and provides the best performance with the proposed LCCAA beamformer. With an SINR of 40.45 dB, 40.29 dB, 40.18 dB, and 39.99 dB for 0°, 1°, 2°, and 3° disparity angles, respectively, and output powers of −0.019 dB, −0.076 dB, and −0.171 dB for 1°, 2°, and 3° disparity angles, respectively, LCCAA beamformers using the NVL technique outperform other beamformers with different robust approaches.",

keywords = "FDL, LCCAA, NVL, ODL, VDL, beam width, interference, optimal, robust techniques, sidelobe level",

author = "Imteaz Rahaman and Jafor, \{Md Shakiul\} and Singh, \{Narinderjit Singh Sawaran\} and Haque, \{Md Ashraful\} and Biswas, \{Antar Kumar\} and Rahman, \{Md Afzalur\} and Zakariya, \{M. Azman B.\} and Abro, \{Ghulam E.Mustafa\} and Nayan Sarker",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors.",

year = "2022",

month = nov,

doi = "10.3390/app122211481",

language = "English",

volume = "12",

journal = "Applied Sciences (Switzerland)",

issn = "2076-3417",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "22",

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AU - Rahaman, Imteaz

AU - Jafor, Md Shakiul

AU - Singh, Narinderjit Singh Sawaran

AU - Haque, Md Ashraful

AU - Biswas, Antar Kumar

AU - Rahman, Md Afzalur

AU - Zakariya, M. Azman B.

AU - Abro, Ghulam E.Mustafa

AU - Sarker, Nayan

PY - 2022/11

Y1 - 2022/11

N2 - In this research, linearly arranged circular antenna array (LCAA), linearly arranged circular planer antenna array (LCPAA), linearly arranged rectangular antenna array (LRAA), and linearly arranged concentric circular antenna array (LCCAA) are analyzed using robust techniques. These four antenna arrays are briefly investigated to evaluate their beam width performance, ability to detect a false signal, and SINR power pattern performances. Robust techniques—fixed diagonal loading (FDL), optimal diagonal loading (ODL), variable diagonal loading (VDL), and new variable loading (NVL) techniques—are applied, and the NVL technique is found to be superior and provides the best performance with the proposed LCCAA beamformer. With an SINR of 40.45 dB, 40.29 dB, 40.18 dB, and 39.99 dB for 0°, 1°, 2°, and 3° disparity angles, respectively, and output powers of −0.019 dB, −0.076 dB, and −0.171 dB for 1°, 2°, and 3° disparity angles, respectively, LCCAA beamformers using the NVL technique outperform other beamformers with different robust approaches.

AB - In this research, linearly arranged circular antenna array (LCAA), linearly arranged circular planer antenna array (LCPAA), linearly arranged rectangular antenna array (LRAA), and linearly arranged concentric circular antenna array (LCCAA) are analyzed using robust techniques. These four antenna arrays are briefly investigated to evaluate their beam width performance, ability to detect a false signal, and SINR power pattern performances. Robust techniques—fixed diagonal loading (FDL), optimal diagonal loading (ODL), variable diagonal loading (VDL), and new variable loading (NVL) techniques—are applied, and the NVL technique is found to be superior and provides the best performance with the proposed LCCAA beamformer. With an SINR of 40.45 dB, 40.29 dB, 40.18 dB, and 39.99 dB for 0°, 1°, 2°, and 3° disparity angles, respectively, and output powers of −0.019 dB, −0.076 dB, and −0.171 dB for 1°, 2°, and 3° disparity angles, respectively, LCCAA beamformers using the NVL technique outperform other beamformers with different robust approaches.

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KW - LCCAA

KW - NVL

KW - ODL

KW - VDL

KW - beam width

KW - interference

KW - optimal

KW - robust techniques

KW - sidelobe level

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DO - 10.3390/app122211481

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AN - SCOPUS:85142492392

SN - 2076-3417

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ER -

Performance Investigation of Linearly Arranged Circular, Circular Planer, Rectangular, and Concentric Circular Antenna Arrays Using Robust NVL Techniques

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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