Fast Synthesis Method for Large Aperture Array Pattern in the Presence of Array Errors

Fast Synthesis Method for Large Aperture Array Pattern in the Presence of Array Errors

In this paper, an improved array synthesis method with array errors is proposed for large aperture arrays. Because of the array errors such as amplitude-phase errors and positions errors, the performance of the array synthesis is reduced seriously. Firstly, the ideal fast low sidelobe synthesis meth...

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Main Authors: Lihuan Huo, Rulong Bai, Fei Xue, Jianfeng Chen, Penghui Huang, Guisheng Liao
Format: Article
Language:English
Published: Hindawi Limited 2021-01-01
Series:International Journal of Antennas and Propagation
Online Access:http://dx.doi.org/10.1155/2021/5439822
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spelling doaj-0faad756e8724398b6407d994a573d1f2021-07-12T02:13:12ZengHindawi LimitedInternational Journal of Antennas and Propagation1687-58772021-01-01202110.1155/2021/5439822Fast Synthesis Method for Large Aperture Array Pattern in the Presence of Array ErrorsLihuan Huo0Rulong Bai1Fei Xue2Jianfeng Chen3Penghui Huang4Guisheng Liao5The 54th Research Institute of CETCThe 54th Research Institute of CETCThe 54th Research Institute of CETCThe 54th Research Institute of CETCSchool of Electronic Information and Electrical EngineeringNational Laboratory of Radar Signal ProcessingIn this paper, an improved array synthesis method with array errors is proposed for large aperture arrays. Because of the array errors such as amplitude-phase errors and positions errors, the performance of the array synthesis is reduced seriously. Firstly, the ideal fast low sidelobe synthesis method is obtained based on the discrete Fourier transform (DFT) method. Then, by using Taylor expansion to remove the coupling relationship between the position of the element and the scanning angle, the compensation matrix for the pattern function and the array weighted vector with amplitude phase and position errors are derived. At last, the conversion relationship between the array with errors and the array weight vector is corrected in the iterative process. The theoretical simulation experiments verify the effectiveness and robustness of the proposed method for the linear array and rectangular array pattern synthesis. Then, the influence of Taylor expansion order on the pattern synthesis results is analysed.http://dx.doi.org/10.1155/2021/5439822
collection DOAJ
language English
format Article
sources DOAJ
author Lihuan Huo
Rulong Bai
Fei Xue
Jianfeng Chen
Penghui Huang
Guisheng Liao
spellingShingle Lihuan Huo
Rulong Bai
Fei Xue
Jianfeng Chen
Penghui Huang
Guisheng Liao
Fast Synthesis Method for Large Aperture Array Pattern in the Presence of Array Errors
International Journal of Antennas and Propagation
author_facet Lihuan Huo
Rulong Bai
Fei Xue
Jianfeng Chen
Penghui Huang
Guisheng Liao
author_sort Lihuan Huo
title Fast Synthesis Method for Large Aperture Array Pattern in the Presence of Array Errors
title_short Fast Synthesis Method for Large Aperture Array Pattern in the Presence of Array Errors
title_full Fast Synthesis Method for Large Aperture Array Pattern in the Presence of Array Errors
title_fullStr Fast Synthesis Method for Large Aperture Array Pattern in the Presence of Array Errors
title_full_unstemmed Fast Synthesis Method for Large Aperture Array Pattern in the Presence of Array Errors
title_sort fast synthesis method for large aperture array pattern in the presence of array errors
publisher Hindawi Limited
series International Journal of Antennas and Propagation
issn 1687-5877
publishDate 2021-01-01
description In this paper, an improved array synthesis method with array errors is proposed for large aperture arrays. Because of the array errors such as amplitude-phase errors and positions errors, the performance of the array synthesis is reduced seriously. Firstly, the ideal fast low sidelobe synthesis method is obtained based on the discrete Fourier transform (DFT) method. Then, by using Taylor expansion to remove the coupling relationship between the position of the element and the scanning angle, the compensation matrix for the pattern function and the array weighted vector with amplitude phase and position errors are derived. At last, the conversion relationship between the array with errors and the array weight vector is corrected in the iterative process. The theoretical simulation experiments verify the effectiveness and robustness of the proposed method for the linear array and rectangular array pattern synthesis. Then, the influence of Taylor expansion order on the pattern synthesis results is analysed.
url http://dx.doi.org/10.1155/2021/5439822
work_keys_str_mv AT lihuanhuo fastsynthesismethodforlargeaperturearraypatterninthepresenceofarrayerrors
AT rulongbai fastsynthesismethodforlargeaperturearraypatterninthepresenceofarrayerrors
AT feixue fastsynthesismethodforlargeaperturearraypatterninthepresenceofarrayerrors
AT jianfengchen fastsynthesismethodforlargeaperturearraypatterninthepresenceofarrayerrors
AT penghuihuang fastsynthesismethodforlargeaperturearraypatterninthepresenceofarrayerrors
AT guishengliao fastsynthesismethodforlargeaperturearraypatterninthepresenceofarrayerrors
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