Direction modulation based on planar rectangular non‐linear frequency diverse array

Direction modulation based on planar rectangular non‐linear frequency diverse array

Abstract Since its inception, the frequency diverse array (FDA) has attracted extensive attention and research because of its unique properties. However, most of the research primarily focuses on linear geometry FDA, with fewer studies on planar FDA. This letter proposes a design method based on pla...

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Main Authors: Yuanhao Zhang, Haihua Xie, Rujiang Guo, Huijie Liu
Format: Article
Language:English
Published: Wiley 2023-12-01
Series:Electronics Letters
Subjects:
antennas and propagation
array signal processing
frequency diverse array
planar antenna arrays
radar antennas
Online Access:https://doi.org/10.1049/ell2.13065
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author Yuanhao Zhang
Haihua Xie
Rujiang Guo
Huijie Liu
author_facet Yuanhao Zhang
Haihua Xie
Rujiang Guo
Huijie Liu
author_sort Yuanhao Zhang
collection DOAJ
description Abstract Since its inception, the frequency diverse array (FDA) has attracted extensive attention and research because of its unique properties. However, most of the research primarily focuses on linear geometry FDA, with fewer studies on planar FDA. This letter proposes a design method based on planar rectangular FDA (PRFDA), which adjusts the frequency of each array element nonlinearly so that the beam direction of planar rectangular FDA can change linearly or nonlinearly with time, forming the desired transmit beampattern. Theoretical analysis and simulation results verify the effectiveness of the proposed method.
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issn 0013-5194
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language English
last_indexed 2024-03-08T16:04:11Z
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spelling doaj.art-20f1c22b009f44ccbe4e690efcff62c92024-01-08T08:30:54ZengWileyElectronics Letters0013-51941350-911X2023-12-015924n/an/a10.1049/ell2.13065Direction modulation based on planar rectangular non‐linear frequency diverse arrayYuanhao Zhang0Haihua Xie1Rujiang Guo2Huijie Liu3Innovation Academy for Microsatellites Chinese Academy of Sciences Shanghai ChinaInnovation Academy for Microsatellites Chinese Academy of Sciences Shanghai ChinaKey Laboratory of IntelliSense Technology CETC Nanjing ChinaInnovation Academy for Microsatellites Chinese Academy of Sciences Shanghai ChinaAbstract Since its inception, the frequency diverse array (FDA) has attracted extensive attention and research because of its unique properties. However, most of the research primarily focuses on linear geometry FDA, with fewer studies on planar FDA. This letter proposes a design method based on planar rectangular FDA (PRFDA), which adjusts the frequency of each array element nonlinearly so that the beam direction of planar rectangular FDA can change linearly or nonlinearly with time, forming the desired transmit beampattern. Theoretical analysis and simulation results verify the effectiveness of the proposed method.https://doi.org/10.1049/ell2.13065antennas and propagationarray signal processingfrequency diverse arrayplanar antenna arraysradar antennas
spellingShingle Yuanhao Zhang
Haihua Xie
Rujiang Guo
Huijie Liu
Direction modulation based on planar rectangular non‐linear frequency diverse array
Electronics Letters
antennas and propagation
array signal processing
frequency diverse array
planar antenna arrays
radar antennas
title Direction modulation based on planar rectangular non‐linear frequency diverse array
title_full Direction modulation based on planar rectangular non‐linear frequency diverse array
title_fullStr Direction modulation based on planar rectangular non‐linear frequency diverse array
title_full_unstemmed Direction modulation based on planar rectangular non‐linear frequency diverse array
title_short Direction modulation based on planar rectangular non‐linear frequency diverse array
title_sort direction modulation based on planar rectangular non linear frequency diverse array
topic antennas and propagation
array signal processing
frequency diverse array
planar antenna arrays
radar antennas
url https://doi.org/10.1049/ell2.13065
work_keys_str_mv AT yuanhaozhang directionmodulationbasedonplanarrectangularnonlinearfrequencydiversearray
AT haihuaxie directionmodulationbasedonplanarrectangularnonlinearfrequencydiversearray
AT rujiangguo directionmodulationbasedonplanarrectangularnonlinearfrequencydiversearray
AT huijieliu directionmodulationbasedonplanarrectangularnonlinearfrequencydiversearray

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