基于编码超表面的三维孔径编码成像研究

Ting Wang; Xiangyu Yin; Xuhui Ma; Runze Zhang

doi:10.15918/j.tbit1001-0645.2021.313

基于编码超表面的三维孔径编码成像研究

Translated title of the contribution: Research on 3D Coded Aperture Imaging Based on Coding Metasurface

Ting Wang, Xiangyu Yin, Xuhui Ma, Runze Zhang

School of Mechatronical Engineering

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

To solve the problem of low resolution of the radar system for imaging stationary targets in the microwave frequency band, a three-dimentional (3D) imaging system was designed based on metamaterial and coded aperture imaging system, and an optimization algorithm for 3D imaging was proposed. The system divided the space where the 3D target was located into grids on four imaging planes, and constructed the measurement matrix using the irrelevance of the radiation characteristics of the coding metasurface at different encodings, and finally achieved high-resolution imaging of stationary targets in the Ka band. The simulation results show that this imaging system can accurately reconstruct a stationary target within a distance of 2 m; the azimuth resolution is 20 cm, and the distance resolution is 10 cm.

Translated title of the contribution	Research on 3D Coded Aperture Imaging Based on Coding Metasurface
Original language	Chinese (Traditional)
Pages (from-to)	947-952
Number of pages	6
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	42
Issue number	9
DOIs	https://doi.org/10.15918/j.tbit1001-0645.2021.313
Publication status	Published - Sept 2022

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title = "基于编码超表面的三维孔径编码成像研究",

abstract = "To solve the problem of low resolution of the radar system for imaging stationary targets in the microwave frequency band, a three-dimentional (3D) imaging system was designed based on metamaterial and coded aperture imaging system, and an optimization algorithm for 3D imaging was proposed. The system divided the space where the 3D target was located into grids on four imaging planes, and constructed the measurement matrix using the irrelevance of the radiation characteristics of the coding metasurface at different encodings, and finally achieved high-resolution imaging of stationary targets in the Ka band. The simulation results show that this imaging system can accurately reconstruct a stationary target within a distance of 2 m; the azimuth resolution is 20 cm, and the distance resolution is 10 cm.",

keywords = "coded aperture imaging, coding metasurface, compressed sensing, three-dimensional imaging",

author = "Ting Wang and Xiangyu Yin and Xuhui Ma and Runze Zhang",

year = "2022",

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doi = "10.15918/j.tbit1001-0645.2021.313",

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T1 - 基于编码超表面的三维孔径编码成像研究

AU - Wang, Ting

AU - Yin, Xiangyu

AU - Ma, Xuhui

AU - Zhang, Runze

PY - 2022/9

Y1 - 2022/9

N2 - To solve the problem of low resolution of the radar system for imaging stationary targets in the microwave frequency band, a three-dimentional (3D) imaging system was designed based on metamaterial and coded aperture imaging system, and an optimization algorithm for 3D imaging was proposed. The system divided the space where the 3D target was located into grids on four imaging planes, and constructed the measurement matrix using the irrelevance of the radiation characteristics of the coding metasurface at different encodings, and finally achieved high-resolution imaging of stationary targets in the Ka band. The simulation results show that this imaging system can accurately reconstruct a stationary target within a distance of 2 m; the azimuth resolution is 20 cm, and the distance resolution is 10 cm.

AB - To solve the problem of low resolution of the radar system for imaging stationary targets in the microwave frequency band, a three-dimentional (3D) imaging system was designed based on metamaterial and coded aperture imaging system, and an optimization algorithm for 3D imaging was proposed. The system divided the space where the 3D target was located into grids on four imaging planes, and constructed the measurement matrix using the irrelevance of the radiation characteristics of the coding metasurface at different encodings, and finally achieved high-resolution imaging of stationary targets in the Ka band. The simulation results show that this imaging system can accurately reconstruct a stationary target within a distance of 2 m; the azimuth resolution is 20 cm, and the distance resolution is 10 cm.

KW - coded aperture imaging

KW - coding metasurface

KW - compressed sensing

KW - three-dimensional imaging

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基于编码超表面的三维孔径编码成像研究

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