kopia lustrzana https://github.com/OpenDroneMap/docs
Stephen Mather
GitHub
commit
4ae6bc6bc7
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@ -269,6 +269,90 @@ When previously mapped sites need revisited, OpenDroneMap can align multiple ver
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Animated gif comparing two separately processed, but aligned digital surface models.
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Plugin Time-SIFT
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----------------
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The script at contrib/time-sift in the ODM repository does Time-SIFT processing with ODM. Time-SIFT is a method for multi-temporal analysis without the need to co-registrate the data.
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D. Feurer, F. Vinatier, Joining multi-epoch archival aerial images in
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a single SfM block allows 3-D change detection with almost
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exclusively image information, ISPRS Journal of Photogrammetry and
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Remote Sensing, Volume 146, 2018, Pages 495-506, ISSN 0924-2716, doi:
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10.1016/j.isprsjprs.2018.10.016
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(https://doi.org/10.1016/j.isprsjprs.2018.10.016)
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Requirements
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============
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- ODM ! :-)
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- subprocess
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- json
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- os
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- shutil
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- pathlib
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- sys
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- argparse
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- textwrap
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Usage
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=====
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Provided example
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================
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Download or clone `this repo <https://forge.inrae.fr/Denis.Feurer/timesift-odm-data-example.git>`__
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to get example data.
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Then execute
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::
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python Timesift_odm.py datasets --end-with odm_filterpoints
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It should make the Time-SIFT processing on the downloaded example data, stopping after the filtered dense clouds step.
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In the destination dir, you should obtain new directories, ``0_before`` and ``1_after`` at the same level as the ``time-sift-block`` directory. These new directories contain all the results natively co-registered.
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You can then use `CloudCompare <https://cloudcompare.org/>`__ to compute distance between the ``datasets/0_before/odm_filterpoints/point_cloud.ply`` and the ``datasets/1_after/odm_filterpoints point_cloud.ply`` and obtain this image showing the difference between the two 3D surfaces. Here, two soil samples were excavated as can be seen on the image below. |image1|
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Your own data
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~~~~~~~~~~~~~
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In your dataset directory (usually ``datasets``, but you can have chosen another name) you have to prepare a Time-SIFT project directory (default name : ``time-sift-block``, *can be tuned via a parameter*) that contains : \* ``images/`` : a subdirectory with all images of all epochs. This directory name is fixed as it is the one expected by ODM \*
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``images_epochs.txt`` : a file that has the same format as the file used for the split and merge ODM function. This file name *can be tuned via a parameter*.
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The ``images_epochs.txt`` file has two columns, the first column contains image names and the second contains the epoch name as follows
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::
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DSC_0368.JPG 0_before
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DSC_0369.JPG 0_before
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DSC_0370.JPG 0_before
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DSC_0389.JPG 1_after
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DSC_0390.JPG 1_after
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DSC_0391.JPG 1_after
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Your directory, before running the script, should look like this :
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::
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$PWD/datasets/
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└── time-sift-block/
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├── images/
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└── images_epochs.txt
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At the end of the script you obtain a directory by epoch (at the same level as the Time-SIFT project directory). Each directory is processed with images of each epoch and all results are natively co-registered due to the initial sfm step done with all images.
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::
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$PWD/datasets/
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├── 0_before/
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├── 1_after/
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└── time-sift-block/
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.. |image1| image:: https://forge.inrae.fr/Denis.Feurer/timesift-odm-data-example/-/raw/main/Example.png?ref_type=heads
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-----------------------
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Aligning Large Datasets
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-----------------------
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