Difference between revisions of "Video Codecs"
Wiki-admin (talk | contribs) |
Wiki-admin (talk | contribs) |
||
| Line 9: | Line 9: | ||
If you are using H.264 compression, you can calculate a ballpark estimate for your target bitrate using the Kush gauge: | If you are using H.264 compression, you can calculate a ballpark estimate for your target bitrate using the Kush gauge: | ||
Target Bitrate (kbps) = Frame Width (px) * Frame Height (px) * Frame Rate (fps) * Motion Factor * 0.07 / 1000 | Target Bitrate (kbps) = Frame Width (px) * Frame Height (px) * Frame Rate (fps) * Motion Factor * 0.07 / 1000 | ||
| − | "Motion Factor" is an arbitrary value ( | + | "Motion Factor" is an arbitrary value (typically 1, 2 or 4) that you can assign to your video based on the amount of (fast) movement in the video. Higher amounts of movement require a higher amount of information to be stored in order to prevent quality loss. |
Example calculation for a typical 720p video: | Example calculation for a typical 720p video: | ||
1280 * 720 * 25 * 2 * 0.07 / 1000 = 3225.6 kbps (= 3.2 Mbps) | 1280 * 720 * 25 * 2 * 0.07 / 1000 = 3225.6 kbps (= 3.2 Mbps) | ||
Revision as of 14:50, 14 October 2014
Information
Codecs
To find out what video codecs are and why they are used, please reserve about 45 minutes of your life to watch this comprehensive video: How Codecs Work (Vimeo)
Bitrate
When compressing a video, you will be asked to enter a 'bitrate'. This is what determines how much information is stored for every second of video. The more information, the higher the quality of the video. The tradeoff is file size. The more information, the larger the file. So setting a bitrate is striking a balance between limiting the file size without losing too much quality. The smarter the compression format, the easier this is to achieve.
If you are using H.264 compression, you can calculate a ballpark estimate for your target bitrate using the Kush gauge:
Target Bitrate (kbps) = Frame Width (px) * Frame Height (px) * Frame Rate (fps) * Motion Factor * 0.07 / 1000
"Motion Factor" is an arbitrary value (typically 1, 2 or 4) that you can assign to your video based on the amount of (fast) movement in the video. Higher amounts of movement require a higher amount of information to be stored in order to prevent quality loss. Example calculation for a typical 720p video:
1280 * 720 * 25 * 2 * 0.07 / 1000 = 3225.6 kbps (= 3.2 Mbps)
Bitrate can be set to Constant (CBR) or Variable (VBR). A variable bitrate can help decreasing file size when your video has a combination of high and low amounts of movement, as it will optimize the distribution of information storage for those parts in your video. The downside is that your video player has to sometimes suddenly decode a lot more information than the previous frame, resulting in possible lag. For this reason, we advise using a constant bitrate.
Software support
| Recommended formats | Non-Recommended formats | |
|---|---|---|
| Compression format | H.264 | XVID |
| Container | .mp4 | .avi |
| Software | ||
| VLC | Yes | Yes |
| Presentation | No1 | Yes |
1 Documentation says Yes, reality says No.
Downloads
Codec Packs
| Name | Download Location |
|---|---|
| LAV Filters | https://github.com/Nevcairiel/LAVFilters/releases |
| K-Lite Codec Pack | http://www.codecguide.com/download_kl.htm |
| FFmpeg Encoder | https://www.ffmpeg.org/ |
| FFDshow | http://sourceforge.net/projects/ffdshow-tryout/ |
Media Players
| Name | Download Location |
|---|---|
| VLC | https://www.videolan.org/ |
| Noldus Mainconcept Codec (Noldus Media Recorder) | Media:Noldus MainConcept Codec Package 8.5.26.zip |
| AVBin (Psychopy) | http://avbin.github.io/AVbin/Home/Home.html |
| Gstreamer (Matlab) | http://gstreamer.freedesktop.org/ |