Advanced subsea imaging technique of digital holography: In situ measurement of marine microscale plankton and particles
Advanced subsea imaging technique of digital holography: In situ measurement of marine microscale plankton and particles
Studying the amount, variety, and distribution of microscale particles and plankton at the global scale at different times and seasons is very important to understand ocean environments, and by reference, the global environment. It is important to image them in their natural habitats. Many optical techniques have been developed to meet this requirement. Most techniques suffer from one or another drawbacks, such as limited depth-of-field or low volume. Digital holography is an advanced optical imaging technique to image micro-objects, and it provides high-resolution recording, large depth-of-field and recording volume, and 3D viewing and tracking. This paper describes basic principles of in-line digital holography and provides common image processing methods. Four submersible digital holographic cameras, eHoloCam, RamaCam, weeHoloCam, and LISST-Holo, are introduced, as well as their image processing software. At the end, some limitations and challenges in the underwater holographic imaging systems are mentioned, and some possible solutions are discussed.
digital holography, hologram processing, marine microscale particles and plankton, submersible holographic cameras
Liu, Zonghua
76b789cb-cddf-49c2-89dd-ca8a56997486
Giering, Sarah
e9b75287-e35e-414a-a5f2-cef9f2ab2efd
Takahashi, Tomoko
3f3f98c5-993c-4e11-b5ec-0fa4dbdbced9
Thevar, Thangavel
06bf7cc7-cf72-422e-a77b-9d1f55a2b3b1
Takeuchi, Marika
5b691020-f6ff-469f-9b68-8e0cd9d98956
Burns, Nick
b7617357-c62a-4022-a40b-8d305256454d
Thornton, Blair
8293beb5-c083-47e3-b5f0-d9c3cee14be9
Watson, John
5b87c996-09db-49f2-b114-404dcc418915
Linsday, Dhugal
3aff3ac1-7772-4577-82c7-20a1823ca2f4
2023
Liu, Zonghua
76b789cb-cddf-49c2-89dd-ca8a56997486
Giering, Sarah
e9b75287-e35e-414a-a5f2-cef9f2ab2efd
Takahashi, Tomoko
3f3f98c5-993c-4e11-b5ec-0fa4dbdbced9
Thevar, Thangavel
06bf7cc7-cf72-422e-a77b-9d1f55a2b3b1
Takeuchi, Marika
5b691020-f6ff-469f-9b68-8e0cd9d98956
Burns, Nick
b7617357-c62a-4022-a40b-8d305256454d
Thornton, Blair
8293beb5-c083-47e3-b5f0-d9c3cee14be9
Watson, John
5b87c996-09db-49f2-b114-404dcc418915
Linsday, Dhugal
3aff3ac1-7772-4577-82c7-20a1823ca2f4
Liu, Zonghua, Giering, Sarah, Takahashi, Tomoko and Thornton, Blair
,
et al.
(2023)
Advanced subsea imaging technique of digital holography: In situ measurement of marine microscale plankton and particles.
In 2023 IEEE International Symposium on Underwater Technology, UT 2023.
IEEE..
(doi:10.1109/UT49729.2023.10103440).
Record type:
Conference or Workshop Item
(Paper)
Abstract
Studying the amount, variety, and distribution of microscale particles and plankton at the global scale at different times and seasons is very important to understand ocean environments, and by reference, the global environment. It is important to image them in their natural habitats. Many optical techniques have been developed to meet this requirement. Most techniques suffer from one or another drawbacks, such as limited depth-of-field or low volume. Digital holography is an advanced optical imaging technique to image micro-objects, and it provides high-resolution recording, large depth-of-field and recording volume, and 3D viewing and tracking. This paper describes basic principles of in-line digital holography and provides common image processing methods. Four submersible digital holographic cameras, eHoloCam, RamaCam, weeHoloCam, and LISST-Holo, are introduced, as well as their image processing software. At the end, some limitations and challenges in the underwater holographic imaging systems are mentioned, and some possible solutions are discussed.
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More information
Published date: 2023
Additional Information:
Funding Information:
This work is funded by an European research program (Advancing Novel Imaging Technologies and Data Analyses in order to Understand Interior Ocean Carbon Storage (abbreviated as ANTICS), under project code P11105-01).
Publisher Copyright:
© 2023 IEEE.
Venue - Dates:
2023 IEEE International Symposium on Underwater Technology, UT 2023, , Tokyo, Japan, 2023-03-06 - 2023-03-09
Keywords:
digital holography, hologram processing, marine microscale particles and plankton, submersible holographic cameras
Identifiers
Local EPrints ID: 477098
URI: http://eprints.soton.ac.uk/id/eprint/477098
PURE UUID: 32275dbd-1012-4f0a-a6dc-d22360f82cf0
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Date deposited: 26 May 2023 16:32
Last modified: 17 Mar 2024 13:21
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Contributors
Author:
Zonghua Liu
Author:
Sarah Giering
Author:
Tomoko Takahashi
Author:
Thangavel Thevar
Author:
Marika Takeuchi
Author:
Nick Burns
Author:
John Watson
Author:
Dhugal Linsday
Corporate Author: et al.
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