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oldcpu's meandering thoughts on Computers, GNU/Linux and openSUSE

Stabilizing a Video in openSUSE GNU/Linux with vid.stab and ffmpeg

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This blog entry is about a technique to use to stabilize videos that are shaky.

I previous posted in 2009 about a technique running an MS-Windows application under “wine”, which worked reasonably well. This was the application “VirtualDub” with the plugin “deshaker”.

This current post is about a pure GNU/Linux technique, using the openSUSE packman packager packaged application “ffmpeg” and the library “libvidstab”.

In general , the application is integrated in transcode, ffmpeg (check also static builds) and also kdenlive. I don’t nominally use transcode, and while I use kdenlive from time to time, in some previous efforts, I struggled with their vid.stab implementation.

In this blog article, I discuss some recent successful experience using ffmpeg and libvidstab as packaged by the Packman packagers.

While this GNU/Linux technique has been available for a while, I only first noticed it a few days ago. I surfed a bit and found some references here:

FFMpeg bash shell command

I used the ‘ffmpeg’ command in a bash shell to do the stabilization. This is nominally done in 2 steps, where the first step creates a vector file associated with the video that one wishes to stabilize, and the second step performs the actual stabilization, creating a new video from the old.

One can see, using the above links, the various vidstab options one can use.

Create vector file:

In my case for the 1st step I sent the following command in a bash shell (where my original video was a type .mts from an old Canon video camera) :

Code:
ffmpeg -i inputvideo.mts -vf vidstabdetect=stepsize=6:shakiness=8:accuracy=9:result=transform_vectors.trf -f null -
For the sake of this example, my input video file is “inputvideo.mts”. This ffmpeg command created the file “transform_vectors.trf”.

Create stabilized video:

I then sent in the bash shell the command (again with the "inputvideo.mts" input video file and this time with the "transform_vectors.trf" vector file:
Code:
ffmpeg -i inputvideo.mts -vf vidstabtransform=input=transform_vectors.trf:zoom=1:smoothing=30,unsharp=5:5:0.8:3:3:0.4 -vcodec libx264 -preset slow -tune film -crf 18 -acodec ac3 stabilizedvideo.mp4
This created the stabilized video file “stabilizedvideo.mp4”.

I obtained the above settings off of one of the noted web sites, and while I played with the smoothing, shakiness, accuracy, stepsize, and some other parameters a bit, I was not able to improve on the above settings (for the videos I tested this on).

Compare original and stabilized videos:

In order to do a side by side comparison of “inputvideo.mts” and “outputvideo.mp4” I combined the two into one file with the following ffmpeg command:
Code:
ffmpeg -i inputvideo.mts -i stabilizedvideo.mp4 -filter_complex "[0:v:0]pad=iw*2:ih[bg]; [bg][1:v:0]overlay=w" comparisonvideo.mp4
Where “comparisonvideo.mp4” has the original and stabilized videos side by side for comparison.

That worked pretty neat.

Example video illustrating stabilization improvement:

For example, this was my very first effort. It illustrates both the original video, and the affect of the stabilization. Check it out:
https://youtu.be/38xG359JQL8

The original video is on the left, and the stabilized on the right. This was taken of a rough long tail boat ride off the coast of Thailand in year 2009.

Process an Entire Directory of videos (with one command)

I then combined the 3 above into one ffmpeg command in a ‘do-loop’ and converted an entire directory of over a hundred .mts videos to a corresponding number of stabilized videos and comparison videos with this bash shell command:
Code:
for i in *.mts; do ffmpeg -i "$i" -vf vidstabdetect=stepsize=6:shakiness=8:accuracy=9:result=transform_vectors.trf -f null -;  ffmpeg -i "$i" -vf vidstabtransform=input=transform_vectors.trf:zoom=1:smoothing=30,unsharp=5:5:0.8:3:3:0.4 -vcodec libx264 -preset slow -tune film -crf 18 -acodec ac3 -ab 128000 libvidstab_${i/%mts/mp4}; rm transform_vectors.trf; ffmpeg -i "$i" -i libvidstab_${i/%mts/mp4} -filter_complex "[0:v:0]pad=iw*2:ih[bg]; [bg][1:v:0]overlay=w" compare_${i/%mts/mp4}; done
That then created for each and every .mts video file in the directory, a corresponding "stablized.mp4" file, and also corresponding comparison “compare…mp4” file.

Caution / request to readers

Please note, I am not an ffmpeg guru, nor a bash shell guru. I recommend anyone who attempts the above and fails, submit a help request in the forum, and not under this blog - as the odds are I will not be able to help you with any deviations from the above.
.

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Updated 28-Mar-2019 at 00:36 by oldcpu

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Comments

  1. oldcpu's Avatar
    As an example of the above one line command, ... lets say in a directory I have only the following 4 stabilized video files:
    00040.mts
    00041.mts
    00042.mts
    00043.mts

    After running the above noted ffmpeg command, it would create 4 x stablized videos, and 4 videos that compares the two, looking likes this in file names:
    libvidstab_00040.mp4
    libvidstab_00041.mp4
    libvidstab_00042.mp4
    libvidstab_00043.mp4
    compare_00040.mp4
    compare_00041.mp4
    compare_00042.mp4
    compare_00043.mp4
    Those 8 new files would be now in the same directory as the old directory, in addition to the original 4 files.