File:Virtual-finger-boosts-three-dimensional-imaging-and-microsurgery-as-well-as-terabyte-volume-image-ncomms5342-s12.ogv
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DescriptionVirtual-finger-boosts-three-dimensional-imaging-and-microsurgery-as-well-as-terabyte-volume-image-ncomms5342-s12.ogv |
English: Supplementary Movie 10 3D navigation of a 96Gb 3D image volume of rat hippocampal neurons based on Vaa3D-TeraFly's single computer-mouse stroke method. For each mouse-stroke (circling in this case) operation, Vaa3D-TeraFly utilizes the VF method to automatically detect the most probable 3D ROI the user is looking at and thereafter load and visualize the respective image data. The ROI-computing (based on single computer-mouse strokes) and respective 3D data rendering time are intentionally shown for a series of randomly chosen ROIs. Note that the method is robust for both bright and dark image regions. The test was done using a Mac laptop and an external hard drive. |
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Source | Video file from Peng H, Tang J, Xiao H, Bria A, Zhou J, Butler V, Zhou Z, Gonzalez-Bellido P, Oh S, Chen J, Mitra A, Tsien R, Zeng H, Ascoli G, Iannello G, Hawrylycz M, Myers E, Long F (2014). "Virtual finger boosts three-dimensional imaging and microsurgery as well as terabyte volume image visualization and analysis". Nature Communications. DOI:10.1038/ncomms5342. PMID 25014658. PMC: 4104457. | ||
Author | Peng H, Tang J, Xiao H, Bria A, Zhou J, Butler V, Zhou Z, Gonzalez-Bellido P, Oh S, Chen J, Mitra A, Tsien R, Zeng H, Ascoli G, Iannello G, Hawrylycz M, Myers E, Long F | ||
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This file is licensed under the Creative Commons Attribution 4.0 International license.
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current | 14:30, 2 November 2016 | 9.4 s, 1,592 × 990 (3.3 MB) | Open Access Media Importer Bot (talk | contribs) | Automatically uploaded media file from Open Access source. Please report problems or suggestions here. |
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Short title | Supplementary Movie 10 |
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Author | Peng H, Tang J, Xiao H, Bria A, Zhou J, Butler V, Zhou Z, Gonzalez-Bellido P, Oh S, Chen J, Mitra A, Tsien R, Zeng H, Ascoli G, Iannello G, Hawrylycz M, Myers E, Long F |
Usage terms | http://creativecommons.org/licenses/by/4.0/ |
Image title | 3D navigation of a 96Gb 3D image volume of rat hippocampal neurons based on Vaa3D-TeraFly's single computer-mouse stroke method. For each mouse-stroke (circling in this case) operation, Vaa3D-TeraFly utilizes the VF method to automatically detect the most probable 3D ROI the user is looking at and thereafter load and visualize the respective image data. The ROI-computing (based on single computer-mouse strokes) and respective 3D data rendering time are intentionally shown for a series of randomly chosen ROIs. Note that the method is robust for both bright and dark image regions. The test was done using a Mac laptop and an external hard drive. |
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