Direction Finding by Time-Modulated Linear Array

The direction finding method by the time-modulated linear array (TMLA) is analyzed and verified. The direction of arrival (DOA) can be calculated out by analyzing the spectrum characteristic of the received signal after the time modulation. Its principle is as follows. Because of the periodic modula...

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Veröffentlicht in:	IEEE transactions on antennas and propagation 2018-07, Vol.66 (7), p.3642-3652
Hauptverfasser:	He, Chong, Cao, Anjie, Chen, Jingfeng, Liang, Xianling, Zhu, Weiren, Geng, Junping, Jin, Ronghong
Format:	Artikel
Sprache:	eng
Schlagworte:	Complexity theory Computer simulation Direction finding Direction of arrival Direction of arrival (DOA) discrete Fourier transform (DFT) Discrete Fourier transforms Frequency modulation Harmonic analysis harmonic characteristic matrix (HCM) Mathematical analysis Mathematical model Matrix methods Modulation Radio frequency time-modulated linear array (TMLA)
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container_issue	7
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container_title	IEEE transactions on antennas and propagation
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creator	He, Chong Cao, Anjie Chen, Jingfeng Liang, Xianling Zhu, Weiren Geng, Junping Jin, Ronghong
description	The direction finding method by the time-modulated linear array (TMLA) is analyzed and verified. The direction of arrival (DOA) can be calculated out by analyzing the spectrum characteristic of the received signal after the time modulation. Its principle is as follows. Because of the periodic modulation, the fundamental and harmonic components are generated in each element simultaneously. After the combiner, the harmonic components' characteristic of the combined signal is influenced by the DOA. Through analyzing their mathematical relationship, the DOA can be calculated out directly. Compared with the existing direction finding methods, the proposed method has two main advantages. One is that only a single RF channel is used, and the other is that its precision can be improved by the time accumulation. The main calculation amount of the proposed method locates in the spectrum estimation for the received signal and the matrix inversion for the harmonic characteristic matrix. Numerical simulations are provided to verify the proposed method, and the related factors influencing on the direction finding precision are analyzed. A simple S -band eight-element TMLA is constructed and tested to verify its effectiveness. Finally, some conclusions are drawn, and the further research is sketched out.
doi_str_mv	10.1109/TAP.2018.2835164
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The direction of arrival (DOA) can be calculated out by analyzing the spectrum characteristic of the received signal after the time modulation. Its principle is as follows. Because of the periodic modulation, the fundamental and harmonic components are generated in each element simultaneously. After the combiner, the harmonic components' characteristic of the combined signal is influenced by the DOA. Through analyzing their mathematical relationship, the DOA can be calculated out directly. Compared with the existing direction finding methods, the proposed method has two main advantages. One is that only a single RF channel is used, and the other is that its precision can be improved by the time accumulation. The main calculation amount of the proposed method locates in the spectrum estimation for the received signal and the matrix inversion for the harmonic characteristic matrix. Numerical simulations are provided to verify the proposed method, and the related factors influencing on the direction finding precision are analyzed. A simple <inline-formula> <tex-math notation="LaTeX">S </tex-math></inline-formula>-band eight-element TMLA is constructed and tested to verify its effectiveness. 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The direction of arrival (DOA) can be calculated out by analyzing the spectrum characteristic of the received signal after the time modulation. Its principle is as follows. Because of the periodic modulation, the fundamental and harmonic components are generated in each element simultaneously. After the combiner, the harmonic components' characteristic of the combined signal is influenced by the DOA. Through analyzing their mathematical relationship, the DOA can be calculated out directly. Compared with the existing direction finding methods, the proposed method has two main advantages. One is that only a single RF channel is used, and the other is that its precision can be improved by the time accumulation. The main calculation amount of the proposed method locates in the spectrum estimation for the received signal and the matrix inversion for the harmonic characteristic matrix. 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The direction of arrival (DOA) can be calculated out by analyzing the spectrum characteristic of the received signal after the time modulation. Its principle is as follows. Because of the periodic modulation, the fundamental and harmonic components are generated in each element simultaneously. After the combiner, the harmonic components' characteristic of the combined signal is influenced by the DOA. Through analyzing their mathematical relationship, the DOA can be calculated out directly. Compared with the existing direction finding methods, the proposed method has two main advantages. One is that only a single RF channel is used, and the other is that its precision can be improved by the time accumulation. The main calculation amount of the proposed method locates in the spectrum estimation for the received signal and the matrix inversion for the harmonic characteristic matrix. 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subjects	Complexity theory Computer simulation Direction finding Direction of arrival Direction of arrival (DOA) discrete Fourier transform (DFT) Discrete Fourier transforms Frequency modulation Harmonic analysis harmonic characteristic matrix (HCM) Mathematical analysis Mathematical model Matrix methods Modulation Radio frequency time-modulated linear array (TMLA)
title	Direction Finding by Time-Modulated Linear Array
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