A Multi-Polarization Enabled Generalized Joined Coupler (MPE-GJC) Matrix for Multi-Beam Antenna Arrays

This communication presents a novel multi-polarization enabled Generalized Joined Coupler (MPE-GJC) matrix designed for multibeam and multi-polarization antenna arrays. Multiple beams can be generated simultaneously, with each beam's pointing direction independently configured. Each beam can ad...

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Published inIEEE transactions on antennas and propagation p. 1
Main Authors Zeng, Fan Chao, Li, Ming, Ding, Can, Jay Guo, Y.
Format Journal Article
LanguageEnglish
Published IEEE 2025
Subjects
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ISSN0018-926X
1558-2221
DOI10.1109/TAP.2025.3607208

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Abstract This communication presents a novel multi-polarization enabled Generalized Joined Coupler (MPE-GJC) matrix designed for multibeam and multi-polarization antenna arrays. Multiple beams can be generated simultaneously, with each beam's pointing direction independently configured. Each beam can adopt the same or different polarizations, arbitrarily selected from horizontal, vertical, left-hand circular, and right-hand circular polarizations. We propose two optimization methods-excitation vector optimization (EVO) and joint-beam multi-objective (JBMO) optimization-balancing computational efficiency and system performance. A 4×20 MPE-GJC matrix was optimized using both methods and used to feed a 1×10 dual-polarized antenna array. Active radiation patterns of each antenna element, obtained through full-wave simulation, were employed to accurately assess the matrix's beamforming capability. The results demonstrate that the four beams' polarizations and main directions can be independently configured by adjusting only the phase shifter values. This provides a new solution to support both terrestrial and non-terrestrial communication for 6G simultaneously, where linear and circular polarizations are desired, respectively.
AbstractList This communication presents a novel multi-polarization enabled Generalized Joined Coupler (MPE-GJC) matrix designed for multibeam and multi-polarization antenna arrays. Multiple beams can be generated simultaneously, with each beam's pointing direction independently configured. Each beam can adopt the same or different polarizations, arbitrarily selected from horizontal, vertical, left-hand circular, and right-hand circular polarizations. We propose two optimization methods-excitation vector optimization (EVO) and joint-beam multi-objective (JBMO) optimization-balancing computational efficiency and system performance. A 4×20 MPE-GJC matrix was optimized using both methods and used to feed a 1×10 dual-polarized antenna array. Active radiation patterns of each antenna element, obtained through full-wave simulation, were employed to accurately assess the matrix's beamforming capability. The results demonstrate that the four beams' polarizations and main directions can be independently configured by adjusting only the phase shifter values. This provides a new solution to support both terrestrial and non-terrestrial communication for 6G simultaneously, where linear and circular polarizations are desired, respectively.
Author Li, Ming
Jay Guo, Y.
Ding, Can
Zeng, Fan Chao
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Snippet This communication presents a novel multi-polarization enabled Generalized Joined Coupler (MPE-GJC) matrix designed for multibeam and multi-polarization...
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SubjectTerms Antenna arrays
Antenna radiation patterns
Antennas
Array signal processing
Blass matrix
Butler matrices
Generalized joined coupler (GJC) matrix
Linear antenna arrays
Multi-polarization
Multibeam
Optimization
Phase shifters
PSO algorithm
Reconfigurable antenna
Transmission line matrix methods
Vectors
Title A Multi-Polarization Enabled Generalized Joined Coupler (MPE-GJC) Matrix for Multi-Beam Antenna Arrays
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