论文信息 - High-speed real-time image compression based on all-optical discrete cosine transformation

High-speed real-time image compression based on all-optical discrete cosine transformation

In this paper, we present a high-speed single-pixel imaging (SPI) system based on all-optical discrete cosine transform (DCT) and demonstrate its capability to enable noninvasive imaging of flowing cells in a microfluidic channel. Through spectral shaping based on photonic time stretch (PTS) and wavelength-to-space conversion, structured illumination patterns are generated at a rate (tens of MHz) which is three orders of magnitude higher than the switching rate of a digital micromirror device (DMD) used in a conventional single-pixel camera. Using this pattern projector, high-speed image compression based on DCT can be achieved in the optical domain. In our proposed system, a high compression ratio (approximately 10:1) and a fast image reconstruction procedure are both achieved, which implicates broad applications in industrial quality control and biomedical imaging.

[1] Ting Sun,et al. Single-pixel imaging via compressive sampling , 2008, IEEE Signal Process. Mag..

[2] Mark A Foster,et al. High-speed flow microscopy using compressed sensing with ultrafast laser pulses. , 2015, Optics express.

[3] Edmund Y. Lam,et al. Arbitrary two-dimensional spectrally encoded pattern generation—a new strategy for high-speed patterned illumination imaging , 2015 .

[4] David L Donoho,et al. Compressed sensing , 2006, IEEE Transactions on Information Theory.

[5] 郭强,et al. Fast time-lens-based line-scan single-pixel camera with multi-wavelength source , 2015 .