Pixel super resolution imaging method based on coded aperture modulation

Bowen Wang; Yan Zou; Chao Zuo; Jiasong Sun; Yan Hu

doi:10.1117/12.2586429

15 January 2021 Pixel super resolution imaging method based on coded aperture modulation

Bowen Wang, Yan Zou, Chao Zuo, Jiasong Sun, Yan Hu

Proceedings Volume 11761, Fourth International Conference on Photonics and Optical Engineering; 1176111 (2021) https://doi.org/10.1117/12.2586429
Event: Fourth International Conference on Photonics and Optical Engineering, 2020, Xi'an, China

Abstract

In recent years, the development of computational imaging technology provides a new method for the realization of non-scanning super-resolution imaging. In this paper, a pixel super-resolution algorithm based on Fourier ptychographic technology is proposed, and the corresponding integrated and systematic programmable aperture coded super-resolution imaging system is constructed. By modulating the intensity with the coded aperture mask, utilizing different system point spread functions to obtain multiple samples of the original scene, and finally adopting sparse optimization iterative algorithm to reconstruct the original image, the result of super- resolution imaging is more than 3.5 times of Nyquist sampling frequency. In this tutorial, the proposed new super-resolution photoelectric imaging technology innovatively adopts the approach of coded aperture to realize image super-resolution imaging and effectively solve image pixelation. High-resolution images beyond the spatial resolution of the detector are obtained without any physical moving device or scanning mechanism. Compared with the traditional micro-scanning technology, it not only improves the reliability and stability of the system but also greatly reduces the cost and volume weight of the system.

Citation Download Citation

Bowen Wang, Yan Zou, Chao Zuo, Jiasong Sun, and Yan Hu "Pixel super resolution imaging method based on coded aperture modulation", Proc. SPIE 11761, Fourth International Conference on Photonics and Optical Engineering, 1176111 (15 January 2021); https://doi.org/10.1117/12.2586429

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