The optimal design of a binaural sparse-aperture system

Luting Zhang; Ming Liu; Yuejin Zhao; Liquan Dong; Xinji Li; Haoyuan Du

doi:10.1016/j.rinp.2020.102970

The optimal design of a binaural sparse-aperture system

Luting Zhang, Ming Liu^*, Yuejin Zhao, Liquan Dong, Xinji Li, Haoyuan Du

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

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

5 Citations (Scopus)

Abstract

Optical sparse-aperture (OSA) can greatly improve the spatial resolution of optical system. However, its optical designs are complex. This paper proposes a binaural sparse-aperture system with a simple and symmetrical structure, which is composed of three apertures. Apertures are rotated to obtain rich frequency information. The scheme of rotating apertures is analyzed by taking the ratios of sub-apertures and the number of rotations as variables. The image artifacts are suppressed through processing in the frequency domain. Simulation results analyze the effects on OTFs and imaging quality with different rotation numbers and ratios of sub-apertures. Experimental results show that this system can reach almost the same cut-off frequency as what the equivalent multi-aperture system can reach.

Original language	English
Article number	102970
Journal	Results in Physics
Volume	16
DOIs	https://doi.org/10.1016/j.rinp.2020.102970
Publication status	Published - Mar 2020

Keywords

Optical transform function
Peak signal-to-noise ratio
Rotation
Sparse-aperture system

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title = "The optimal design of a binaural sparse-aperture system",

abstract = "Optical sparse-aperture (OSA) can greatly improve the spatial resolution of optical system. However, its optical designs are complex. This paper proposes a binaural sparse-aperture system with a simple and symmetrical structure, which is composed of three apertures. Apertures are rotated to obtain rich frequency information. The scheme of rotating apertures is analyzed by taking the ratios of sub-apertures and the number of rotations as variables. The image artifacts are suppressed through processing in the frequency domain. Simulation results analyze the effects on OTFs and imaging quality with different rotation numbers and ratios of sub-apertures. Experimental results show that this system can reach almost the same cut-off frequency as what the equivalent multi-aperture system can reach.",

keywords = "Optical transform function, Peak signal-to-noise ratio, Rotation, Sparse-aperture system",

author = "Luting Zhang and Ming Liu and Yuejin Zhao and Liquan Dong and Xinji Li and Haoyuan Du",

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year = "2020",

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T1 - The optimal design of a binaural sparse-aperture system

AU - Zhang, Luting

AU - Liu, Ming

AU - Zhao, Yuejin

AU - Dong, Liquan

AU - Li, Xinji

AU - Du, Haoyuan

PY - 2020/3

Y1 - 2020/3

N2 - Optical sparse-aperture (OSA) can greatly improve the spatial resolution of optical system. However, its optical designs are complex. This paper proposes a binaural sparse-aperture system with a simple and symmetrical structure, which is composed of three apertures. Apertures are rotated to obtain rich frequency information. The scheme of rotating apertures is analyzed by taking the ratios of sub-apertures and the number of rotations as variables. The image artifacts are suppressed through processing in the frequency domain. Simulation results analyze the effects on OTFs and imaging quality with different rotation numbers and ratios of sub-apertures. Experimental results show that this system can reach almost the same cut-off frequency as what the equivalent multi-aperture system can reach.

AB - Optical sparse-aperture (OSA) can greatly improve the spatial resolution of optical system. However, its optical designs are complex. This paper proposes a binaural sparse-aperture system with a simple and symmetrical structure, which is composed of three apertures. Apertures are rotated to obtain rich frequency information. The scheme of rotating apertures is analyzed by taking the ratios of sub-apertures and the number of rotations as variables. The image artifacts are suppressed through processing in the frequency domain. Simulation results analyze the effects on OTFs and imaging quality with different rotation numbers and ratios of sub-apertures. Experimental results show that this system can reach almost the same cut-off frequency as what the equivalent multi-aperture system can reach.

KW - Optical transform function

KW - Peak signal-to-noise ratio

KW - Rotation

KW - Sparse-aperture system

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The optimal design of a binaural sparse-aperture system

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Keywords

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