Effect of time discretization of the imaging process on the accuracy of trajectory estimation in fluorescence microscopy
Effect of time discretization of the imaging process on the accuracy of trajectory estimation in fluorescence microscopy
In fluorescence microscopy, high-speed imaging is often necessary for the proper visualization and analysis of fast subcellular dynamics. Here, we examine how the speed of image acquisition affects the accuracy with which parameters such as the starting position and speed of a microscopic non-stationary fluorescent object can be estimated from the resulting image sequence. Specifically, we use a Fisher information-based performance bound to investigate the detector-dependent effect of frame rate on the accuracy of parameter estimation. We demonstrate that when a charge-coupled device detector is used, the estimation accuracy deteriorates as the frame rate increases beyond a point where the detector's readout noise begins to overwhelm the low number of photons detected in each frame. In contrast, we show that when an electron-multiplying charge-coupled device (EMCCD) detector is used, the estimation accuracy improves with increasing frame rate. In fact, at high frame rates where the low number of photons detected in each frame renders the fluorescent object difficult to detect visually, imaging with an EMCCD detector represents a natural implementation of the Ultrahigh Accuracy Imaging Modality, and enables estimation with an accuracy approaching that which is attainable only when a hypothetical noiseless detector is used.
20396-20420
Wong, Yau
36160933-9ffd-441e-84f7-23ace7af822a
Chao, Jerry
550e20b0-8365-42e3-a6fc-1048eb8c2e47
Lin, Zhiping
9b046adc-5fd0-4f26-a722-4e72598ecd9f
Ober, Raimund J.
31f4d47f-fb49-44f5-8ff6-87fc4aff3d36
25 August 2014
Wong, Yau
36160933-9ffd-441e-84f7-23ace7af822a
Chao, Jerry
550e20b0-8365-42e3-a6fc-1048eb8c2e47
Lin, Zhiping
9b046adc-5fd0-4f26-a722-4e72598ecd9f
Ober, Raimund J.
31f4d47f-fb49-44f5-8ff6-87fc4aff3d36
Wong, Yau, Chao, Jerry, Lin, Zhiping and Ober, Raimund J.
(2014)
Effect of time discretization of the imaging process on the accuracy of trajectory estimation in fluorescence microscopy.
Optics Express, 22 (17), .
(doi:10.1364/OE.22.020396).
Abstract
In fluorescence microscopy, high-speed imaging is often necessary for the proper visualization and analysis of fast subcellular dynamics. Here, we examine how the speed of image acquisition affects the accuracy with which parameters such as the starting position and speed of a microscopic non-stationary fluorescent object can be estimated from the resulting image sequence. Specifically, we use a Fisher information-based performance bound to investigate the detector-dependent effect of frame rate on the accuracy of parameter estimation. We demonstrate that when a charge-coupled device detector is used, the estimation accuracy deteriorates as the frame rate increases beyond a point where the detector's readout noise begins to overwhelm the low number of photons detected in each frame. In contrast, we show that when an electron-multiplying charge-coupled device (EMCCD) detector is used, the estimation accuracy improves with increasing frame rate. In fact, at high frame rates where the low number of photons detected in each frame renders the fluorescent object difficult to detect visually, imaging with an EMCCD detector represents a natural implementation of the Ultrahigh Accuracy Imaging Modality, and enables estimation with an accuracy approaching that which is attainable only when a hypothetical noiseless detector is used.
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Accepted/In Press date: 4 August 2014
e-pub ahead of print date: 15 August 2014
Published date: 25 August 2014
Identifiers
Local EPrints ID: 423656
URI: http://eprints.soton.ac.uk/id/eprint/423656
ISSN: 1094-4087
PURE UUID: c4342c8a-4220-43d1-b29a-89d4db7ae173
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Date deposited: 27 Sep 2018 16:30
Last modified: 16 Mar 2024 04:37
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Author:
Yau Wong
Author:
Jerry Chao
Author:
Zhiping Lin
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