Reconstruction algorithm for cross-waveband optical computing imaging

Jin Tao Xie; Shu Hang Bie; Ming Fei Li; Yuan Jin Yu; Yi Fei Li; Jin Guang Wang; Bao Gang Quan; Ling An Wu

doi:10.1088/1674-1056/ad6ccc

Reconstruction algorithm for cross-waveband optical computing imaging

Jin Tao Xie^*
, Shu Hang Bie
, Ming Fei Li^*
, Yuan Jin Yu
, Yi Fei Li
, Jin Guang Wang
, Bao Gang Quan
, Ling An Wu^*

^*Corresponding author for this work

School of Automation

CAS - Institute of Physics
University of Chinese Academy of Sciences

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

1 Citation (Scopus)

Abstract

In a single-pixel fast imaging setup, the data collected by the single-pixel detector needs to be processed by a computer, but the speed of the latter will affect the image reconstruction time. Here we propose two kinds of setups which are able to transform non-visible into visible light imaging, wherein their computing process is replaced by a camera integration mode. The image captured by the camera has a low contrast, so here we present an algorithm that can realize a high quality image in near-infrared to visible cross-waveband imaging. The scheme is verified both by simulation and in actual experiments. The setups demonstrate the great potential for single-pixel imaging and high-speed cross-waveband imaging for future practical applications.

Original language	English
Article number	104203
Journal	Chinese Physics B
Volume	33
Issue number	10
DOIs	https://doi.org/10.1088/1674-1056/ad6ccc
Publication status	Published - 1 Sept 2024

Keywords

optical computing imaging
single-pixel imaging

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10.1088/1674-1056/ad6ccc

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title = "Reconstruction algorithm for cross-waveband optical computing imaging",

abstract = "In a single-pixel fast imaging setup, the data collected by the single-pixel detector needs to be processed by a computer, but the speed of the latter will affect the image reconstruction time. Here we propose two kinds of setups which are able to transform non-visible into visible light imaging, wherein their computing process is replaced by a camera integration mode. The image captured by the camera has a low contrast, so here we present an algorithm that can realize a high quality image in near-infrared to visible cross-waveband imaging. The scheme is verified both by simulation and in actual experiments. The setups demonstrate the great potential for single-pixel imaging and high-speed cross-waveband imaging for future practical applications.",

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AU - Xie, Jin Tao

AU - Bie, Shu Hang

AU - Li, Ming Fei

AU - Yu, Yuan Jin

AU - Li, Yi Fei

AU - Wang, Jin Guang

AU - Quan, Bao Gang

AU - Wu, Ling An

PY - 2024/9/1

Y1 - 2024/9/1

N2 - In a single-pixel fast imaging setup, the data collected by the single-pixel detector needs to be processed by a computer, but the speed of the latter will affect the image reconstruction time. Here we propose two kinds of setups which are able to transform non-visible into visible light imaging, wherein their computing process is replaced by a camera integration mode. The image captured by the camera has a low contrast, so here we present an algorithm that can realize a high quality image in near-infrared to visible cross-waveband imaging. The scheme is verified both by simulation and in actual experiments. The setups demonstrate the great potential for single-pixel imaging and high-speed cross-waveband imaging for future practical applications.

AB - In a single-pixel fast imaging setup, the data collected by the single-pixel detector needs to be processed by a computer, but the speed of the latter will affect the image reconstruction time. Here we propose two kinds of setups which are able to transform non-visible into visible light imaging, wherein their computing process is replaced by a camera integration mode. The image captured by the camera has a low contrast, so here we present an algorithm that can realize a high quality image in near-infrared to visible cross-waveband imaging. The scheme is verified both by simulation and in actual experiments. The setups demonstrate the great potential for single-pixel imaging and high-speed cross-waveband imaging for future practical applications.

KW - optical computing imaging

KW - single-pixel imaging

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M3 - Article

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VL - 33

JO - Chinese Physics B

JF - Chinese Physics B

IS - 10

M1 - 104203

ER -

Reconstruction algorithm for cross-waveband optical computing imaging

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