计 算 增 强 光 学 相 干 层 析 成 像 技 术 研 究 进 展

Zhengyu Qiao; Yong Huang; Qun Hao

doi:10.16337/j.1004-9037.2024.02.002

计算增强光学相干层析成像技术研究进展

Translated title of the contribution: Research Progress of Computational Enhanced Optical Coherence Tomography

Zhengyu Qiao, Yong Huang^*, Qun Hao

^*Corresponding author for this work

School of Optics and Photonics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

Optical coherence tomography（OCT）has become an important non-invasive three-dimensional imaging technology with a wide range of applications. Novel demands have occurred for the OCT technology due to the developing application scenario requirement，such as resolution improvement，depth-of-focus decoupling，aberrations correction，and anisotropic resolution correction. Over the past decades，computational imaging methods have been demonstrated effective in improving previous performance parameters. This paper focuses on the four performance improvement demands and reviews several representative computational methods. The analysis compares the strengths and weaknesses of respective solutions and outlooks future trends of computation-enhanced OCT technology，with the aim to provide references for the further study and its applications.

Translated title of the contribution	Research Progress of Computational Enhanced Optical Coherence Tomography
Original language	Chinese (Traditional)
Pages (from-to)	248-270
Number of pages	23
Journal	Shuju Caiji Yu Chuli/Journal of Data Acquisition and Processing
Volume	39
Issue number	2
DOIs	https://doi.org/10.16337/j.1004-9037.2024.02.002
Publication status	Published - Mar 2024

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10.16337/j.1004-9037.2024.02.002

Cite this

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title = "计算增强光学相干层析成像技术研究进展",

abstract = "Optical coherence tomography（OCT）has become an important non-invasive three-dimensional imaging technology with a wide range of applications. Novel demands have occurred for the OCT technology due to the developing application scenario requirement，such as resolution improvement，depth-of-focus decoupling，aberrations correction，and anisotropic resolution correction. Over the past decades，computational imaging methods have been demonstrated effective in improving previous performance parameters. This paper focuses on the four performance improvement demands and reviews several representative computational methods. The analysis compares the strengths and weaknesses of respective solutions and outlooks future trends of computation-enhanced OCT technology，with the aim to provide references for the further study and its applications.",

keywords = "aberration correction, axial and lateral resolution, computational imaging, focal of depth decoupling, optical coherence tomography",

author = "Zhengyu Qiao and Yong Huang and Qun Hao",

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year = "2024",

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doi = "10.16337/j.1004-9037.2024.02.002",

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N2 - Optical coherence tomography（OCT）has become an important non-invasive three-dimensional imaging technology with a wide range of applications. Novel demands have occurred for the OCT technology due to the developing application scenario requirement，such as resolution improvement，depth-of-focus decoupling，aberrations correction，and anisotropic resolution correction. Over the past decades，computational imaging methods have been demonstrated effective in improving previous performance parameters. This paper focuses on the four performance improvement demands and reviews several representative computational methods. The analysis compares the strengths and weaknesses of respective solutions and outlooks future trends of computation-enhanced OCT technology，with the aim to provide references for the further study and its applications.

AB - Optical coherence tomography（OCT）has become an important non-invasive three-dimensional imaging technology with a wide range of applications. Novel demands have occurred for the OCT technology due to the developing application scenario requirement，such as resolution improvement，depth-of-focus decoupling，aberrations correction，and anisotropic resolution correction. Over the past decades，computational imaging methods have been demonstrated effective in improving previous performance parameters. This paper focuses on the four performance improvement demands and reviews several representative computational methods. The analysis compares the strengths and weaknesses of respective solutions and outlooks future trends of computation-enhanced OCT technology，with the aim to provide references for the further study and its applications.

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计算增强光学相干层析成像技术研究进展

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计 算 增 强 光 学 相 干 层 析 成 像 技 术 研 究 进 展

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计算增强光学相干层析成像技术研究进展