TY - JOUR
T1 - Photon-Efficient Block Compressed Sensing Imaging Using Vision Transformer
AU - Fan, Yanshan
AU - Wu, Shuxiao
AU - Hu, Jianyong
AU - Jiang, Yuxing
AU - Qiao, Zhixing
AU - Feng, Guosheng
AU - Yang, Changgang
AU - Liang, Xilong
AU - Liu, Jianqiang
AU - Chen, Ruiyun
AU - Qin, Chengbing
AU - Zhang, Guofeng
AU - Xiao, Liantuan
AU - Jia, Suotang
N1 - Publisher Copyright:
© 2025 Wiley-VCH GmbH.
PY - 2025/12/17
Y1 - 2025/12/17
N2 - Single-photon imaging has become one of the candidates for the next generation of imaging techniques due to its high detection sensitivity. However, the technique faces the problem of mutual constraints between imaging speed and imaging quality, so how to achieve high-quality imaging within a short integration time has become a major challenge. In this work, a photon-efficient block compressed sensing imaging method based on a vision transformer is proposed. By employing the strategy of block sampling and overall reconstruction, high-speed imaging is achieved while preserving high quality. In the experiments, a sampling ratio of 2−10 is achieved with a peak signal-to-noise ratio of 19.46 dB and a structural similarity of 0.762. Moreover, the average photon count per pixel is as low as 0.035 photons/pixel. This work introduces a new strategy for achieving high-speed and high-quality imaging in ultra-low-light environments, offering broad applicability in biomedical imaging, quantum sensing, and other advanced fields.
AB - Single-photon imaging has become one of the candidates for the next generation of imaging techniques due to its high detection sensitivity. However, the technique faces the problem of mutual constraints between imaging speed and imaging quality, so how to achieve high-quality imaging within a short integration time has become a major challenge. In this work, a photon-efficient block compressed sensing imaging method based on a vision transformer is proposed. By employing the strategy of block sampling and overall reconstruction, high-speed imaging is achieved while preserving high quality. In the experiments, a sampling ratio of 2−10 is achieved with a peak signal-to-noise ratio of 19.46 dB and a structural similarity of 0.762. Moreover, the average photon count per pixel is as low as 0.035 photons/pixel. This work introduces a new strategy for achieving high-speed and high-quality imaging in ultra-low-light environments, offering broad applicability in biomedical imaging, quantum sensing, and other advanced fields.
KW - block compressed sensing imaging
KW - block sampling
KW - overall reconstruction
KW - single-photon imaging
KW - vision transformer
UR - https://www.scopus.com/pages/publications/105012112008
U2 - 10.1002/lpor.202501394
DO - 10.1002/lpor.202501394
M3 - 文章
AN - SCOPUS:105012112008
SN - 1863-8880
VL - 19
JO - Laser and Photonics Reviews
JF - Laser and Photonics Reviews
IS - 24
M1 - e01394
ER -