Video snapshot compressive imaging using adaptive progressive coding for high-quality reconstruction under different illumination circumstances

Xing Liu; Mingyu Zhu; Siming Zheng; Runqiu Luo; Huazheng Wu; Xin Yuan

doi:10.1364/OL.509276

Optics Letters
Vol. 49,
Issue 1,
pp. 85-88
(2024)
•https://doi.org/10.1364/OL.509276

Video snapshot compressive imaging using adaptive progressive coding for high-quality reconstruction under different illumination circumstances

Xing Liu, Mingyu Zhu, Siming Zheng, Runqiu Luo, Huazheng Wu, and Xin Yuan

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Xing Liu, Mingyu Zhu, Siming Zheng, Runqiu Luo, Huazheng Wu, and Xin Yuan, "Video snapshot compressive imaging using adaptive progressive coding for high-quality reconstruction under different illumination circumstances," Opt. Lett. 49, 85-88 (2024)

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Abstract

We consider capturing high-speed color video under different illumination conditions using a video snapshot compressive imaging system (video SCI). An adaptive progressive coding method is proposed, and we conduct an integrated design of the imaging system in terms of optics, mechanics, and control. Compared to previous video SCI systems, this adaptive progressive coding method mitigates the image stability issues in various illumination conditions, ensuring high-quality imaging while greatly improving the light throughput of the system. Based on the analysis of both simulation and real experimental results, we found that this imaging system can achieve color video shooting under an illumination range of 2 lux to 60 lux.

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Supplementary Material (5)

Name	Description
Supplement 1	Detailed explanation of the components of the reconstruction algorithm and a detailed analysis of real scene data experimental results for low illumination, normal illumination, and overexposure illumination.
Visualization 1	Simulate performance of different masks in low-light (Branch), normal-light (Bike), and overexposed (Street View) conditions.
Visualization 2	The encoded measurement values and reconstructed images of a fast rotating quadri-chromatic disc captured by the camera under three different low-light conditions of 6 lux, 4 lux, and 2 lux.
Visualization 3	The encoded measurement and reconstructed images of a rapidly spinning quadrichromatic disc, captured by the camera under 21 lux lighting condition.
Visualization 4	The encoded measurement values and reconstructed images of a fast rotating quadri-chromatic disc captured by the camera under three different overexposure lighting conditions of 60 lux, 46 lux, and 39 lux.

Data availability

Data underlying the results presented in this paper are not publicly available at this time but may be obtained from the authors upon reasonable request.

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Mask	`Branch`			`Bike`			`Street View`
1:9	29.53	0.912	54.90	29.99	0.915	18.06	23.24	0.878	67.41
2:8	30.61	0.927	34.21	31.34	0.932	9.79	23.79	0.879	83.25
3:7	30.83	0.927	25.57	31.79	0.937	9.20	25.24	0.884	65.48
4:6	30.75	0.919	20.57	32.01	0.940	9.93	27.87	0.905	48.92
5:5	30.43	0.904	18.49	32.18	0.942	8.02	29.16	0.916	46.71
6:4	28.40	0.878	37.13	32.20	0.942	11.60	31.82	0.948	29.88
7:3	27.69	0.837	35.43	32.04	0.942	8.04	29.86	0.930	73.23
8:2	23.98	0.781	136.53	31.47	0.937	13.91	28.56	0.922	63.85
9:1	22.77	0.728	219.15	29.58	0.915	30.68	26.71	0.915	124.35

Abstract

Supplementary Material (5)

Data availability

Cited By

Figures (3)

Tables (1)

Equations (3)

Optics Letters