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Fast 3D digital holography tomography based on dynamic compressive sensing
Author(s): Senlin Jin; Yuan Xu; Chongxia Zhong; Wei Liang; Yan Huang; Hejun Yao
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Paper Abstract

As a high-resolution, non-destructive internal structure three-dimensional imaging technology, digital holographic microscopy tomography can provide advanced and safe detection technologies and research tools for the development of high-tech such as life sciences, clinical medicine, and new materials. In order to reduce the reconstruction time and improve the quality of reconstruction, the compressive sensing theory is applied to holographic imaging. Compressive holography technology can not only achieve the tomographic reconstruction of objects from a small amount of holographic data, but also solve the problem of crosstalk between the layer and the layer and the elimination of noise in the tomographic reconstruction process, and the effect is particularly obvious. In this paper, the dynamic compressive sensing theory is applied to the field of three-dimensional digital holographic microscopy, which is different from the fixed sampling method used in the general compressive holographic imaging. It achieved fast 3D digital holography and improved axial resolution. We obtained holographic tomography images at a sampling rate of 6.25%, doubling the axial resolution without loss of reproduction image resolution.

Paper Details

Date Published: 12 December 2018
PDF: 7 pages
Proc. SPIE 10845, Three-Dimensional Image Acquisition and Display Technology and Applications, 108450I (12 December 2018); doi: 10.1117/12.2505208
Show Author Affiliations
Senlin Jin, Beijing Institute of Metrology (China)
Beijing Univ. of Technology (China)
Yuan Xu, Beijing Institute of Metrology (China)
Chongxia Zhong, Beijing Institute of Metrology (China)
Wei Liang, Beijing Institute of Metrology (China)
Yan Huang, Beijing Institute of Metrology (China)
Hejun Yao, Beijing Institute of Metrology (China)

Published in SPIE Proceedings Vol. 10845:
Three-Dimensional Image Acquisition and Display Technology and Applications
Byoungho Lee; Yongtian Wang; Liangcai Cao; Guohai Situ, Editor(s)

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