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The Journal of Engineering
Design of terahertz frequency scanning reflector antenna and its application in direction-of-arrival estimation
Peipei Hou1  Jian Qu1  Gang Li1  Shichao Li1  Congjing Hao1  Qu Jia1  Pengcheng Zhang2  Chao Li3 
[1] Beijing Aerospace Yilian Science & Technology Development Co., Ltd;Beijing No.11 High School;Institute of Electronics, Chinese Academy of Sciences;
关键词: array signal processing;    image resolution;    terahertz wave devices;    millimetre wave antennas;    direction-of-arrival estimation;    reflector antennas;    terahertz frequency scanning reflector antenna;    frequency scanning-based direction-of-arrival estimation scheme;    terahertz band;    diffraction enhancement mechanism;    diffracted beam;    235–330 ghz;    high diffraction efficiency;    angular super-resolution algorithm;    maximum likelihood method;    fsra manifold vector;    fsra operating;    0.3 thz frequency band;    doa estimation system;    frequency 0.3 thz;    noise figure 3.0 db;    frequency 235.0 ghz to 330.0 ghz;   
DOI  :  10.1049/joe.2019.0562
来源: DOAJ
【 摘 要 】

A novel frequency scanning-based direction-of-arrival (DOA) estimation scheme is proposed at terahertz (THz) band. The diffraction enhancement mechanism, focusing the superposition of the diffracted beam radiated from each element in one unit cell, is expanded to the 0.3 THz band. The frequency scanning reflector antenna (FSRA) operating at 235–330 GHz is proposed with high diffraction efficiency. Angular super-resolution algorithm is proposed based on the FSRA. Maximum likelihood (ML) method, traditionally used in array signal processing, is extended to the novel frequency scanning system based on the FSRA. The model of FSRA manifold vector is constructed. A FSRA operating on 0.3 THz frequency band was experimented, based on which the DOA estimation system is constructed. The resolution of the frequency scanning ML algorithm can be obtained on the level of half of the 3 dB beamwidth by the proof-of-principle experiments in 0.3 THz band.

【 授权许可】

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