File:Virtual-finger-boosts-three-dimensional-imaging-and-microsurgery-as-well-as-terabyte-volume-image-ncomms5342-s11.ogv
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editDescriptionVirtual-finger-boosts-three-dimensional-imaging-and-microsurgery-as-well-as-terabyte-volume-image-ncomms5342-s11.ogv |
English: Supplementary Movie 9 3D navigation of a 96Gb 3D image volume of rat hippocampal neurons based on Vaa3D-TeraFly's single computer-mouse zoom method, from the whole-neuron scale down to the single spine scale. For each zoom-in and zoom-out operation, Vaa3D-TeraFly utilizes the VF method to automatically detect the most probable 3D ROI the user is looking at and thereafter load and display the respective image data. 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 | 8.2 s, 1,646 × 1,018 (1.18 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 9 |
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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 zoom method, from the whole-neuron scale down to the single spine scale. For each zoom-in and zoom-out operation, Vaa3D-TeraFly utilizes the VF method to automatically detect the most probable 3D ROI the user is looking at and thereafter load and display the respective image data. 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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