How can I normalize audio using ffmpeg?
I want the loudest peak sound in a movie clip to be as loud as the codec allows, then have every other sound amplified accordingly.
What's a practical example in order to accomplish this using ffmpeg?
audio ffmpeg
add a comment |
I want the loudest peak sound in a movie clip to be as loud as the codec allows, then have every other sound amplified accordingly.
What's a practical example in order to accomplish this using ffmpeg?
audio ffmpeg
1
You're looking to have the audio 'normalized.' I found this thread and there's lots of good information in there. Hope it helps!
– bobsbarricades
Aug 14 '11 at 20:02
add a comment |
I want the loudest peak sound in a movie clip to be as loud as the codec allows, then have every other sound amplified accordingly.
What's a practical example in order to accomplish this using ffmpeg?
audio ffmpeg
I want the loudest peak sound in a movie clip to be as loud as the codec allows, then have every other sound amplified accordingly.
What's a practical example in order to accomplish this using ffmpeg?
audio ffmpeg
audio ffmpeg
edited Nov 2 '14 at 13:55
Sathyajith Bhat♦
52.7k29154252
52.7k29154252
asked Aug 14 '11 at 19:56
Jon SkarpeteigJon Skarpeteig
611167
611167
1
You're looking to have the audio 'normalized.' I found this thread and there's lots of good information in there. Hope it helps!
– bobsbarricades
Aug 14 '11 at 20:02
add a comment |
1
You're looking to have the audio 'normalized.' I found this thread and there's lots of good information in there. Hope it helps!
– bobsbarricades
Aug 14 '11 at 20:02
1
1
You're looking to have the audio 'normalized.' I found this thread and there's lots of good information in there. Hope it helps!
– bobsbarricades
Aug 14 '11 at 20:02
You're looking to have the audio 'normalized.' I found this thread and there's lots of good information in there. Hope it helps!
– bobsbarricades
Aug 14 '11 at 20:02
add a comment |
3 Answers
3
active
oldest
votes
Option 1: Built-in Normalization Filters
Current ffmpeg has two filters that can be directly used for normalization – although they are already quite advanced, so they do not simply apply gain to reach a peak level. Here they are:
loudnorm
: loudness normalization according to EBU R128. You can set an integrated loudness target, a loudness range target, or maximum true peak. This is recommended for publishing audio and video and it is used by broadcasters all over the world.
dynaudnorm
: “intelligent” loudness normalization without clipping, which applies normalization dynamically over windowed portions of the file. This may change the characteristics of the sound, so it should be applied with caution.
Also, the volume
filter can be used to perform simple volume adjustments. See the Audio Volume Manipulation wiki entry for more.
The loudnorm
filter can be used with one pass, but it is recommended to perform two passes, which enables more accurate linear normalization. This is a little hard to automate. Also, if you want a “simple” RMS-based or peak normalization to 0 dBFS (or any other target), read on.
Option 2: Use the ffmpeg-normalize
tool
I created a Python program to normalize media files, available on PyPi as well. You simply:
download ffmpeg (choose a static build, version 3.1 or higher)- put the
ffmpeg
executable in your$PATH
by either adding it in, for example,/usr/local/bin
, or adding its directory to$PATH
- Run
pip install ffmpeg-normalize
- Use
ffmpeg-normalize
For example:
ffmpeg-normalize input.mp4 -o output.mp4 -c:a aac -b:a 192k
Or, to simply batch-normalize a number of audio files and write them as uncompressed WAV to an output folder:
ffmpeg-normalize *.m4a -of /path/to/outputFolder -ext wav
The tool supports EBU R128 (default), RMS and peak. Have a look at ffmpeg-normalize -h
for more options and check the README for some examples.
Also, it supports re-encoding with other encoders (e.g., AAC or MP3), or automatic merging of the audio back into the video.
Option 3: Manually normalizing audio with ffmpeg
In ffmpeg you can use the volume
filter to change the volume of a track. Make sure you download a recent version of the program.
This guide is for peak normalization, meaning that it will make the loudest part in the file sit at 0 dB instead of something lower. There is also RMS-based normalization which tries to make the average loudness the same across multiple files. To do that, do not try to push the maximum volume to 0 dB, but the mean volume to the dB level of choice (e.g. -26 dB).
Find out the gain to apply
First you need to analyze the audio stream for the maximum volume to see if normalizing would even pay off:
ffmpeg -i video.avi -af "volumedetect" -vn -sn -dn -f null /dev/null
Replace /dev/null
with NUL
on Windows.
The -vn
, -sn
, and -dn
arguments instruct ffmpeg to ignore non-audio streams during this analysis. This drastically speeds up the analysis.
This will output something like the following:
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] mean_volume: -16.0 dB
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] max_volume: -5.0 dB
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] histogram_0db: 87861
As you can see, our maximum volume is -5.0 dB, so we can apply 5 dB gain. If you get a value of 0 dB, then you don't need to normalize the audio.
Apply the volume filter:
Now we apply the volume
filter to an audio file. Note that applying the filter means we will have to re-encode the audio stream. What codec you want for audio depends on the original format, of course. Here are some examples:
Plain audio file: Just encode the file with whatever encoder you need:
ffmpeg -i input.wav -af "volume=5dB" output.mp3
Your options are very broad, of course.
AVI format: Usually there's MP3 audio with video that comes in an AVI container:
ffmpeg -i video.avi -af "volume=5dB" -c:v copy -c:a libmp3lame -q:a 2 output.avi
Here we chose quality level 2. Values range from 0–9 and lower means better. Check the MP3 VBR guide for more info on setting the quality. You can also set a fixed bitrate with
-b:a 192k
, for example.
MP4 format: With an MP4 container, you will typically find AAC audio. We can use ffmpeg's build-in AAC encoder.
ffmpeg -i video.mp4 -af "volume=5dB" -c:v copy -c:a aac -b:a 192k output.mp4
Here you can also use other AAC encoders. Some of them support VBR, too. See this answer and the AAC encoding guide for some tips.
In the above examples, the video stream will be copied over using -c:v copy
. If there are subtitles in your input file, or multiple video streams, use the option -map 0
before the output filename.
Comments are not for extended discussion; this conversation has been moved to chat.
– Journeyman Geek♦
Apr 14 '17 at 3:18
4
This is the gift that keeps on giving. 6 years later, and it's still being updated and maintained. Well done!
– Jon Skarpeteig
Aug 7 '17 at 21:04
@Jon Thanks, much appreciated!
– slhck
Aug 7 '17 at 21:24
Does option 3 avoid clipping if I set the new volume so max_volume is zero? i.e. using the opposite value initial given by max_volume
– rraallvv
Oct 26 '17 at 0:38
@rraallvv Yes, it should. That's also what theffmpeg-normalize
tool does, when you specify a level of 0 dB and peak-normalization.
– slhck
Oct 27 '17 at 7:43
add a comment |
I can not comment on the best message so that is my ugly bash based on it to do that
ffmpeg -i sound.mp3 -af volumedetect -f null -y nul &> original.txt
grep "max_volume" original.txt > original1.tmp
sed -i 's|: -|=|' original1.tmp
if [ $? = 0 ]
then
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
grep "max_volume" original1.tmp > original2.tmp
sed -i 's|max_volume=||' original2.tmp
yourscriptvar=$(cat "./original2.tmp")dB
rm result.mp3
ffmpeg -i sound.mp3 -af "volume=$yourscriptvar" result.mp3
ffmpeg -i result.mp3 -af volumedetect -f null -y nul &> result.txt
fi
add a comment |
Here's a script to normalize sound levels of .m4a files. Watch out if the sound levels are too quiet to start with. The final sound can be better if you use something like Audacity in that case.
#!/bin/bash
# Purpose: Use ffmpeg to normalize .m4a audio files to bring them up to max volume, if they at first have negative db volume. Doesn't process them if not. Keeps bitrate same as source files.
# Parameters: $1 should be the name of the directory containing input .m4a files.
# $2 should be the output directory.
INPUTDIR=$1
OUTPUTDIR=$2
<<"COMMENT"
# For ffmpeg arguments http://superuser.com/questions/323119/how-can-i-normalize-audio-using-ffmpeg
# and
# https://kdecherf.com/blog/2012/01/14/ffmpeg-converting-m4a-files-to-mp3-with-the-same-bitrate/
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume
# output: max_volume: -10.3 dB
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep 'max_volume|Duration'
# Output:
# Duration: 00:00:02.14, start: 0.000000, bitrate: 176 kb/s
# [Parsed_volumedetect_0 @ 0x7f8531e011a0] max_volume: -10.3 dB
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume | awk -F': ' '{print $2}' | cut -d' ' -f1
# Output: -10.3
ffmpeg -i test.m4a 2>&1 | grep Audio
# output: Stream #0:0(und): Audio: aac (LC) (mp4a / 0x6134706D), 44100 Hz, stereo, fltp, 170 kb/s (default)
ffmpeg -i test.m4a 2>&1 | grep Audio | awk -F', ' '{print $5}' | cut -d' ' -f1
# output: 170
# This works, but I get a much smaller output file. The sound levels do appear normalized.
ffmpeg -i test.m4a -af "volume=10.3dB" -c:v copy -c:a aac -strict experimental output.m4a
# Operates quietly.
ffmpeg -i test.m4a -af "volume=10.3dB" -c:v copy -c:a aac -strict experimental -b:a 192k output.m4a -loglevel quiet
COMMENT
# $1 (first param) should be the name of a .m4a input file, with .m4a extension
# $2 should be name of output file, with extension
function normalizeAudioFile {
INPUTFILE=$1
OUTPUTFILE=$2
DBLEVEL=`ffmpeg -i ${INPUTFILE} -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume | awk -F': ' '{print $2}' | cut -d' ' -f1`
# We're only going to increase db level if max volume has negative db level.
# Bash doesn't do floating comparison directly
COMPRESULT=`echo ${DBLEVEL}'<'0 | bc -l`
if [ ${COMPRESULT} -eq 1 ]; then
DBLEVEL=`echo "-(${DBLEVEL})" | bc -l`
BITRATE=`ffmpeg -i ${INPUTFILE} 2>&1 | grep Audio | awk -F', ' '{print $5}' | cut -d' ' -f1`
# echo $DBLEVEL
# echo $BITRATE
ffmpeg -i ${INPUTFILE} -af "volume=${DBLEVEL}dB" -c:v copy -c:a aac -strict experimental -b:a ${BITRATE}k ${OUTPUTFILE} -loglevel quiet
else
echo "Already at max db level:" $DBLEVEL "just copying exact file"
cp ${INPUTFILE} ${OUTPUTFILE}
fi
}
for inputFilePath in ${INPUTDIR}/*; do
inputFile=$(basename $inputFilePath)
echo "Processing input file: " $inputFile
outputFilePath=${OUTPUTDIR}/$inputFile
normalizeAudioFile ${inputFilePath} ${outputFilePath}
done
add a comment |
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3 Answers
3
active
oldest
votes
3 Answers
3
active
oldest
votes
active
oldest
votes
active
oldest
votes
Option 1: Built-in Normalization Filters
Current ffmpeg has two filters that can be directly used for normalization – although they are already quite advanced, so they do not simply apply gain to reach a peak level. Here they are:
loudnorm
: loudness normalization according to EBU R128. You can set an integrated loudness target, a loudness range target, or maximum true peak. This is recommended for publishing audio and video and it is used by broadcasters all over the world.
dynaudnorm
: “intelligent” loudness normalization without clipping, which applies normalization dynamically over windowed portions of the file. This may change the characteristics of the sound, so it should be applied with caution.
Also, the volume
filter can be used to perform simple volume adjustments. See the Audio Volume Manipulation wiki entry for more.
The loudnorm
filter can be used with one pass, but it is recommended to perform two passes, which enables more accurate linear normalization. This is a little hard to automate. Also, if you want a “simple” RMS-based or peak normalization to 0 dBFS (or any other target), read on.
Option 2: Use the ffmpeg-normalize
tool
I created a Python program to normalize media files, available on PyPi as well. You simply:
download ffmpeg (choose a static build, version 3.1 or higher)- put the
ffmpeg
executable in your$PATH
by either adding it in, for example,/usr/local/bin
, or adding its directory to$PATH
- Run
pip install ffmpeg-normalize
- Use
ffmpeg-normalize
For example:
ffmpeg-normalize input.mp4 -o output.mp4 -c:a aac -b:a 192k
Or, to simply batch-normalize a number of audio files and write them as uncompressed WAV to an output folder:
ffmpeg-normalize *.m4a -of /path/to/outputFolder -ext wav
The tool supports EBU R128 (default), RMS and peak. Have a look at ffmpeg-normalize -h
for more options and check the README for some examples.
Also, it supports re-encoding with other encoders (e.g., AAC or MP3), or automatic merging of the audio back into the video.
Option 3: Manually normalizing audio with ffmpeg
In ffmpeg you can use the volume
filter to change the volume of a track. Make sure you download a recent version of the program.
This guide is for peak normalization, meaning that it will make the loudest part in the file sit at 0 dB instead of something lower. There is also RMS-based normalization which tries to make the average loudness the same across multiple files. To do that, do not try to push the maximum volume to 0 dB, but the mean volume to the dB level of choice (e.g. -26 dB).
Find out the gain to apply
First you need to analyze the audio stream for the maximum volume to see if normalizing would even pay off:
ffmpeg -i video.avi -af "volumedetect" -vn -sn -dn -f null /dev/null
Replace /dev/null
with NUL
on Windows.
The -vn
, -sn
, and -dn
arguments instruct ffmpeg to ignore non-audio streams during this analysis. This drastically speeds up the analysis.
This will output something like the following:
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] mean_volume: -16.0 dB
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] max_volume: -5.0 dB
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] histogram_0db: 87861
As you can see, our maximum volume is -5.0 dB, so we can apply 5 dB gain. If you get a value of 0 dB, then you don't need to normalize the audio.
Apply the volume filter:
Now we apply the volume
filter to an audio file. Note that applying the filter means we will have to re-encode the audio stream. What codec you want for audio depends on the original format, of course. Here are some examples:
Plain audio file: Just encode the file with whatever encoder you need:
ffmpeg -i input.wav -af "volume=5dB" output.mp3
Your options are very broad, of course.
AVI format: Usually there's MP3 audio with video that comes in an AVI container:
ffmpeg -i video.avi -af "volume=5dB" -c:v copy -c:a libmp3lame -q:a 2 output.avi
Here we chose quality level 2. Values range from 0–9 and lower means better. Check the MP3 VBR guide for more info on setting the quality. You can also set a fixed bitrate with
-b:a 192k
, for example.
MP4 format: With an MP4 container, you will typically find AAC audio. We can use ffmpeg's build-in AAC encoder.
ffmpeg -i video.mp4 -af "volume=5dB" -c:v copy -c:a aac -b:a 192k output.mp4
Here you can also use other AAC encoders. Some of them support VBR, too. See this answer and the AAC encoding guide for some tips.
In the above examples, the video stream will be copied over using -c:v copy
. If there are subtitles in your input file, or multiple video streams, use the option -map 0
before the output filename.
Comments are not for extended discussion; this conversation has been moved to chat.
– Journeyman Geek♦
Apr 14 '17 at 3:18
4
This is the gift that keeps on giving. 6 years later, and it's still being updated and maintained. Well done!
– Jon Skarpeteig
Aug 7 '17 at 21:04
@Jon Thanks, much appreciated!
– slhck
Aug 7 '17 at 21:24
Does option 3 avoid clipping if I set the new volume so max_volume is zero? i.e. using the opposite value initial given by max_volume
– rraallvv
Oct 26 '17 at 0:38
@rraallvv Yes, it should. That's also what theffmpeg-normalize
tool does, when you specify a level of 0 dB and peak-normalization.
– slhck
Oct 27 '17 at 7:43
add a comment |
Option 1: Built-in Normalization Filters
Current ffmpeg has two filters that can be directly used for normalization – although they are already quite advanced, so they do not simply apply gain to reach a peak level. Here they are:
loudnorm
: loudness normalization according to EBU R128. You can set an integrated loudness target, a loudness range target, or maximum true peak. This is recommended for publishing audio and video and it is used by broadcasters all over the world.
dynaudnorm
: “intelligent” loudness normalization without clipping, which applies normalization dynamically over windowed portions of the file. This may change the characteristics of the sound, so it should be applied with caution.
Also, the volume
filter can be used to perform simple volume adjustments. See the Audio Volume Manipulation wiki entry for more.
The loudnorm
filter can be used with one pass, but it is recommended to perform two passes, which enables more accurate linear normalization. This is a little hard to automate. Also, if you want a “simple” RMS-based or peak normalization to 0 dBFS (or any other target), read on.
Option 2: Use the ffmpeg-normalize
tool
I created a Python program to normalize media files, available on PyPi as well. You simply:
download ffmpeg (choose a static build, version 3.1 or higher)- put the
ffmpeg
executable in your$PATH
by either adding it in, for example,/usr/local/bin
, or adding its directory to$PATH
- Run
pip install ffmpeg-normalize
- Use
ffmpeg-normalize
For example:
ffmpeg-normalize input.mp4 -o output.mp4 -c:a aac -b:a 192k
Or, to simply batch-normalize a number of audio files and write them as uncompressed WAV to an output folder:
ffmpeg-normalize *.m4a -of /path/to/outputFolder -ext wav
The tool supports EBU R128 (default), RMS and peak. Have a look at ffmpeg-normalize -h
for more options and check the README for some examples.
Also, it supports re-encoding with other encoders (e.g., AAC or MP3), or automatic merging of the audio back into the video.
Option 3: Manually normalizing audio with ffmpeg
In ffmpeg you can use the volume
filter to change the volume of a track. Make sure you download a recent version of the program.
This guide is for peak normalization, meaning that it will make the loudest part in the file sit at 0 dB instead of something lower. There is also RMS-based normalization which tries to make the average loudness the same across multiple files. To do that, do not try to push the maximum volume to 0 dB, but the mean volume to the dB level of choice (e.g. -26 dB).
Find out the gain to apply
First you need to analyze the audio stream for the maximum volume to see if normalizing would even pay off:
ffmpeg -i video.avi -af "volumedetect" -vn -sn -dn -f null /dev/null
Replace /dev/null
with NUL
on Windows.
The -vn
, -sn
, and -dn
arguments instruct ffmpeg to ignore non-audio streams during this analysis. This drastically speeds up the analysis.
This will output something like the following:
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] mean_volume: -16.0 dB
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] max_volume: -5.0 dB
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] histogram_0db: 87861
As you can see, our maximum volume is -5.0 dB, so we can apply 5 dB gain. If you get a value of 0 dB, then you don't need to normalize the audio.
Apply the volume filter:
Now we apply the volume
filter to an audio file. Note that applying the filter means we will have to re-encode the audio stream. What codec you want for audio depends on the original format, of course. Here are some examples:
Plain audio file: Just encode the file with whatever encoder you need:
ffmpeg -i input.wav -af "volume=5dB" output.mp3
Your options are very broad, of course.
AVI format: Usually there's MP3 audio with video that comes in an AVI container:
ffmpeg -i video.avi -af "volume=5dB" -c:v copy -c:a libmp3lame -q:a 2 output.avi
Here we chose quality level 2. Values range from 0–9 and lower means better. Check the MP3 VBR guide for more info on setting the quality. You can also set a fixed bitrate with
-b:a 192k
, for example.
MP4 format: With an MP4 container, you will typically find AAC audio. We can use ffmpeg's build-in AAC encoder.
ffmpeg -i video.mp4 -af "volume=5dB" -c:v copy -c:a aac -b:a 192k output.mp4
Here you can also use other AAC encoders. Some of them support VBR, too. See this answer and the AAC encoding guide for some tips.
In the above examples, the video stream will be copied over using -c:v copy
. If there are subtitles in your input file, or multiple video streams, use the option -map 0
before the output filename.
Comments are not for extended discussion; this conversation has been moved to chat.
– Journeyman Geek♦
Apr 14 '17 at 3:18
4
This is the gift that keeps on giving. 6 years later, and it's still being updated and maintained. Well done!
– Jon Skarpeteig
Aug 7 '17 at 21:04
@Jon Thanks, much appreciated!
– slhck
Aug 7 '17 at 21:24
Does option 3 avoid clipping if I set the new volume so max_volume is zero? i.e. using the opposite value initial given by max_volume
– rraallvv
Oct 26 '17 at 0:38
@rraallvv Yes, it should. That's also what theffmpeg-normalize
tool does, when you specify a level of 0 dB and peak-normalization.
– slhck
Oct 27 '17 at 7:43
add a comment |
Option 1: Built-in Normalization Filters
Current ffmpeg has two filters that can be directly used for normalization – although they are already quite advanced, so they do not simply apply gain to reach a peak level. Here they are:
loudnorm
: loudness normalization according to EBU R128. You can set an integrated loudness target, a loudness range target, or maximum true peak. This is recommended for publishing audio and video and it is used by broadcasters all over the world.
dynaudnorm
: “intelligent” loudness normalization without clipping, which applies normalization dynamically over windowed portions of the file. This may change the characteristics of the sound, so it should be applied with caution.
Also, the volume
filter can be used to perform simple volume adjustments. See the Audio Volume Manipulation wiki entry for more.
The loudnorm
filter can be used with one pass, but it is recommended to perform two passes, which enables more accurate linear normalization. This is a little hard to automate. Also, if you want a “simple” RMS-based or peak normalization to 0 dBFS (or any other target), read on.
Option 2: Use the ffmpeg-normalize
tool
I created a Python program to normalize media files, available on PyPi as well. You simply:
download ffmpeg (choose a static build, version 3.1 or higher)- put the
ffmpeg
executable in your$PATH
by either adding it in, for example,/usr/local/bin
, or adding its directory to$PATH
- Run
pip install ffmpeg-normalize
- Use
ffmpeg-normalize
For example:
ffmpeg-normalize input.mp4 -o output.mp4 -c:a aac -b:a 192k
Or, to simply batch-normalize a number of audio files and write them as uncompressed WAV to an output folder:
ffmpeg-normalize *.m4a -of /path/to/outputFolder -ext wav
The tool supports EBU R128 (default), RMS and peak. Have a look at ffmpeg-normalize -h
for more options and check the README for some examples.
Also, it supports re-encoding with other encoders (e.g., AAC or MP3), or automatic merging of the audio back into the video.
Option 3: Manually normalizing audio with ffmpeg
In ffmpeg you can use the volume
filter to change the volume of a track. Make sure you download a recent version of the program.
This guide is for peak normalization, meaning that it will make the loudest part in the file sit at 0 dB instead of something lower. There is also RMS-based normalization which tries to make the average loudness the same across multiple files. To do that, do not try to push the maximum volume to 0 dB, but the mean volume to the dB level of choice (e.g. -26 dB).
Find out the gain to apply
First you need to analyze the audio stream for the maximum volume to see if normalizing would even pay off:
ffmpeg -i video.avi -af "volumedetect" -vn -sn -dn -f null /dev/null
Replace /dev/null
with NUL
on Windows.
The -vn
, -sn
, and -dn
arguments instruct ffmpeg to ignore non-audio streams during this analysis. This drastically speeds up the analysis.
This will output something like the following:
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] mean_volume: -16.0 dB
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] max_volume: -5.0 dB
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] histogram_0db: 87861
As you can see, our maximum volume is -5.0 dB, so we can apply 5 dB gain. If you get a value of 0 dB, then you don't need to normalize the audio.
Apply the volume filter:
Now we apply the volume
filter to an audio file. Note that applying the filter means we will have to re-encode the audio stream. What codec you want for audio depends on the original format, of course. Here are some examples:
Plain audio file: Just encode the file with whatever encoder you need:
ffmpeg -i input.wav -af "volume=5dB" output.mp3
Your options are very broad, of course.
AVI format: Usually there's MP3 audio with video that comes in an AVI container:
ffmpeg -i video.avi -af "volume=5dB" -c:v copy -c:a libmp3lame -q:a 2 output.avi
Here we chose quality level 2. Values range from 0–9 and lower means better. Check the MP3 VBR guide for more info on setting the quality. You can also set a fixed bitrate with
-b:a 192k
, for example.
MP4 format: With an MP4 container, you will typically find AAC audio. We can use ffmpeg's build-in AAC encoder.
ffmpeg -i video.mp4 -af "volume=5dB" -c:v copy -c:a aac -b:a 192k output.mp4
Here you can also use other AAC encoders. Some of them support VBR, too. See this answer and the AAC encoding guide for some tips.
In the above examples, the video stream will be copied over using -c:v copy
. If there are subtitles in your input file, or multiple video streams, use the option -map 0
before the output filename.
Option 1: Built-in Normalization Filters
Current ffmpeg has two filters that can be directly used for normalization – although they are already quite advanced, so they do not simply apply gain to reach a peak level. Here they are:
loudnorm
: loudness normalization according to EBU R128. You can set an integrated loudness target, a loudness range target, or maximum true peak. This is recommended for publishing audio and video and it is used by broadcasters all over the world.
dynaudnorm
: “intelligent” loudness normalization without clipping, which applies normalization dynamically over windowed portions of the file. This may change the characteristics of the sound, so it should be applied with caution.
Also, the volume
filter can be used to perform simple volume adjustments. See the Audio Volume Manipulation wiki entry for more.
The loudnorm
filter can be used with one pass, but it is recommended to perform two passes, which enables more accurate linear normalization. This is a little hard to automate. Also, if you want a “simple” RMS-based or peak normalization to 0 dBFS (or any other target), read on.
Option 2: Use the ffmpeg-normalize
tool
I created a Python program to normalize media files, available on PyPi as well. You simply:
download ffmpeg (choose a static build, version 3.1 or higher)- put the
ffmpeg
executable in your$PATH
by either adding it in, for example,/usr/local/bin
, or adding its directory to$PATH
- Run
pip install ffmpeg-normalize
- Use
ffmpeg-normalize
For example:
ffmpeg-normalize input.mp4 -o output.mp4 -c:a aac -b:a 192k
Or, to simply batch-normalize a number of audio files and write them as uncompressed WAV to an output folder:
ffmpeg-normalize *.m4a -of /path/to/outputFolder -ext wav
The tool supports EBU R128 (default), RMS and peak. Have a look at ffmpeg-normalize -h
for more options and check the README for some examples.
Also, it supports re-encoding with other encoders (e.g., AAC or MP3), or automatic merging of the audio back into the video.
Option 3: Manually normalizing audio with ffmpeg
In ffmpeg you can use the volume
filter to change the volume of a track. Make sure you download a recent version of the program.
This guide is for peak normalization, meaning that it will make the loudest part in the file sit at 0 dB instead of something lower. There is also RMS-based normalization which tries to make the average loudness the same across multiple files. To do that, do not try to push the maximum volume to 0 dB, but the mean volume to the dB level of choice (e.g. -26 dB).
Find out the gain to apply
First you need to analyze the audio stream for the maximum volume to see if normalizing would even pay off:
ffmpeg -i video.avi -af "volumedetect" -vn -sn -dn -f null /dev/null
Replace /dev/null
with NUL
on Windows.
The -vn
, -sn
, and -dn
arguments instruct ffmpeg to ignore non-audio streams during this analysis. This drastically speeds up the analysis.
This will output something like the following:
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] mean_volume: -16.0 dB
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] max_volume: -5.0 dB
[Parsed_volumedetect_0 @ 0x7f8ba1c121a0] histogram_0db: 87861
As you can see, our maximum volume is -5.0 dB, so we can apply 5 dB gain. If you get a value of 0 dB, then you don't need to normalize the audio.
Apply the volume filter:
Now we apply the volume
filter to an audio file. Note that applying the filter means we will have to re-encode the audio stream. What codec you want for audio depends on the original format, of course. Here are some examples:
Plain audio file: Just encode the file with whatever encoder you need:
ffmpeg -i input.wav -af "volume=5dB" output.mp3
Your options are very broad, of course.
AVI format: Usually there's MP3 audio with video that comes in an AVI container:
ffmpeg -i video.avi -af "volume=5dB" -c:v copy -c:a libmp3lame -q:a 2 output.avi
Here we chose quality level 2. Values range from 0–9 and lower means better. Check the MP3 VBR guide for more info on setting the quality. You can also set a fixed bitrate with
-b:a 192k
, for example.
MP4 format: With an MP4 container, you will typically find AAC audio. We can use ffmpeg's build-in AAC encoder.
ffmpeg -i video.mp4 -af "volume=5dB" -c:v copy -c:a aac -b:a 192k output.mp4
Here you can also use other AAC encoders. Some of them support VBR, too. See this answer and the AAC encoding guide for some tips.
In the above examples, the video stream will be copied over using -c:v copy
. If there are subtitles in your input file, or multiple video streams, use the option -map 0
before the output filename.
edited Jan 25 '18 at 11:48
answered Aug 14 '11 at 20:11
slhckslhck
160k47444466
160k47444466
Comments are not for extended discussion; this conversation has been moved to chat.
– Journeyman Geek♦
Apr 14 '17 at 3:18
4
This is the gift that keeps on giving. 6 years later, and it's still being updated and maintained. Well done!
– Jon Skarpeteig
Aug 7 '17 at 21:04
@Jon Thanks, much appreciated!
– slhck
Aug 7 '17 at 21:24
Does option 3 avoid clipping if I set the new volume so max_volume is zero? i.e. using the opposite value initial given by max_volume
– rraallvv
Oct 26 '17 at 0:38
@rraallvv Yes, it should. That's also what theffmpeg-normalize
tool does, when you specify a level of 0 dB and peak-normalization.
– slhck
Oct 27 '17 at 7:43
add a comment |
Comments are not for extended discussion; this conversation has been moved to chat.
– Journeyman Geek♦
Apr 14 '17 at 3:18
4
This is the gift that keeps on giving. 6 years later, and it's still being updated and maintained. Well done!
– Jon Skarpeteig
Aug 7 '17 at 21:04
@Jon Thanks, much appreciated!
– slhck
Aug 7 '17 at 21:24
Does option 3 avoid clipping if I set the new volume so max_volume is zero? i.e. using the opposite value initial given by max_volume
– rraallvv
Oct 26 '17 at 0:38
@rraallvv Yes, it should. That's also what theffmpeg-normalize
tool does, when you specify a level of 0 dB and peak-normalization.
– slhck
Oct 27 '17 at 7:43
Comments are not for extended discussion; this conversation has been moved to chat.
– Journeyman Geek♦
Apr 14 '17 at 3:18
Comments are not for extended discussion; this conversation has been moved to chat.
– Journeyman Geek♦
Apr 14 '17 at 3:18
4
4
This is the gift that keeps on giving. 6 years later, and it's still being updated and maintained. Well done!
– Jon Skarpeteig
Aug 7 '17 at 21:04
This is the gift that keeps on giving. 6 years later, and it's still being updated and maintained. Well done!
– Jon Skarpeteig
Aug 7 '17 at 21:04
@Jon Thanks, much appreciated!
– slhck
Aug 7 '17 at 21:24
@Jon Thanks, much appreciated!
– slhck
Aug 7 '17 at 21:24
Does option 3 avoid clipping if I set the new volume so max_volume is zero? i.e. using the opposite value initial given by max_volume
– rraallvv
Oct 26 '17 at 0:38
Does option 3 avoid clipping if I set the new volume so max_volume is zero? i.e. using the opposite value initial given by max_volume
– rraallvv
Oct 26 '17 at 0:38
@rraallvv Yes, it should. That's also what the
ffmpeg-normalize
tool does, when you specify a level of 0 dB and peak-normalization.– slhck
Oct 27 '17 at 7:43
@rraallvv Yes, it should. That's also what the
ffmpeg-normalize
tool does, when you specify a level of 0 dB and peak-normalization.– slhck
Oct 27 '17 at 7:43
add a comment |
I can not comment on the best message so that is my ugly bash based on it to do that
ffmpeg -i sound.mp3 -af volumedetect -f null -y nul &> original.txt
grep "max_volume" original.txt > original1.tmp
sed -i 's|: -|=|' original1.tmp
if [ $? = 0 ]
then
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
grep "max_volume" original1.tmp > original2.tmp
sed -i 's|max_volume=||' original2.tmp
yourscriptvar=$(cat "./original2.tmp")dB
rm result.mp3
ffmpeg -i sound.mp3 -af "volume=$yourscriptvar" result.mp3
ffmpeg -i result.mp3 -af volumedetect -f null -y nul &> result.txt
fi
add a comment |
I can not comment on the best message so that is my ugly bash based on it to do that
ffmpeg -i sound.mp3 -af volumedetect -f null -y nul &> original.txt
grep "max_volume" original.txt > original1.tmp
sed -i 's|: -|=|' original1.tmp
if [ $? = 0 ]
then
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
grep "max_volume" original1.tmp > original2.tmp
sed -i 's|max_volume=||' original2.tmp
yourscriptvar=$(cat "./original2.tmp")dB
rm result.mp3
ffmpeg -i sound.mp3 -af "volume=$yourscriptvar" result.mp3
ffmpeg -i result.mp3 -af volumedetect -f null -y nul &> result.txt
fi
add a comment |
I can not comment on the best message so that is my ugly bash based on it to do that
ffmpeg -i sound.mp3 -af volumedetect -f null -y nul &> original.txt
grep "max_volume" original.txt > original1.tmp
sed -i 's|: -|=|' original1.tmp
if [ $? = 0 ]
then
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
grep "max_volume" original1.tmp > original2.tmp
sed -i 's|max_volume=||' original2.tmp
yourscriptvar=$(cat "./original2.tmp")dB
rm result.mp3
ffmpeg -i sound.mp3 -af "volume=$yourscriptvar" result.mp3
ffmpeg -i result.mp3 -af volumedetect -f null -y nul &> result.txt
fi
I can not comment on the best message so that is my ugly bash based on it to do that
ffmpeg -i sound.mp3 -af volumedetect -f null -y nul &> original.txt
grep "max_volume" original.txt > original1.tmp
sed -i 's|: -|=|' original1.tmp
if [ $? = 0 ]
then
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
sed -i 's| |rn|' original.tmp
grep "max_volume" original1.tmp > original2.tmp
sed -i 's|max_volume=||' original2.tmp
yourscriptvar=$(cat "./original2.tmp")dB
rm result.mp3
ffmpeg -i sound.mp3 -af "volume=$yourscriptvar" result.mp3
ffmpeg -i result.mp3 -af volumedetect -f null -y nul &> result.txt
fi
answered May 19 '16 at 14:51
Sebastien WillemijnsSebastien Willemijns
7112
7112
add a comment |
add a comment |
Here's a script to normalize sound levels of .m4a files. Watch out if the sound levels are too quiet to start with. The final sound can be better if you use something like Audacity in that case.
#!/bin/bash
# Purpose: Use ffmpeg to normalize .m4a audio files to bring them up to max volume, if they at first have negative db volume. Doesn't process them if not. Keeps bitrate same as source files.
# Parameters: $1 should be the name of the directory containing input .m4a files.
# $2 should be the output directory.
INPUTDIR=$1
OUTPUTDIR=$2
<<"COMMENT"
# For ffmpeg arguments http://superuser.com/questions/323119/how-can-i-normalize-audio-using-ffmpeg
# and
# https://kdecherf.com/blog/2012/01/14/ffmpeg-converting-m4a-files-to-mp3-with-the-same-bitrate/
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume
# output: max_volume: -10.3 dB
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep 'max_volume|Duration'
# Output:
# Duration: 00:00:02.14, start: 0.000000, bitrate: 176 kb/s
# [Parsed_volumedetect_0 @ 0x7f8531e011a0] max_volume: -10.3 dB
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume | awk -F': ' '{print $2}' | cut -d' ' -f1
# Output: -10.3
ffmpeg -i test.m4a 2>&1 | grep Audio
# output: Stream #0:0(und): Audio: aac (LC) (mp4a / 0x6134706D), 44100 Hz, stereo, fltp, 170 kb/s (default)
ffmpeg -i test.m4a 2>&1 | grep Audio | awk -F', ' '{print $5}' | cut -d' ' -f1
# output: 170
# This works, but I get a much smaller output file. The sound levels do appear normalized.
ffmpeg -i test.m4a -af "volume=10.3dB" -c:v copy -c:a aac -strict experimental output.m4a
# Operates quietly.
ffmpeg -i test.m4a -af "volume=10.3dB" -c:v copy -c:a aac -strict experimental -b:a 192k output.m4a -loglevel quiet
COMMENT
# $1 (first param) should be the name of a .m4a input file, with .m4a extension
# $2 should be name of output file, with extension
function normalizeAudioFile {
INPUTFILE=$1
OUTPUTFILE=$2
DBLEVEL=`ffmpeg -i ${INPUTFILE} -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume | awk -F': ' '{print $2}' | cut -d' ' -f1`
# We're only going to increase db level if max volume has negative db level.
# Bash doesn't do floating comparison directly
COMPRESULT=`echo ${DBLEVEL}'<'0 | bc -l`
if [ ${COMPRESULT} -eq 1 ]; then
DBLEVEL=`echo "-(${DBLEVEL})" | bc -l`
BITRATE=`ffmpeg -i ${INPUTFILE} 2>&1 | grep Audio | awk -F', ' '{print $5}' | cut -d' ' -f1`
# echo $DBLEVEL
# echo $BITRATE
ffmpeg -i ${INPUTFILE} -af "volume=${DBLEVEL}dB" -c:v copy -c:a aac -strict experimental -b:a ${BITRATE}k ${OUTPUTFILE} -loglevel quiet
else
echo "Already at max db level:" $DBLEVEL "just copying exact file"
cp ${INPUTFILE} ${OUTPUTFILE}
fi
}
for inputFilePath in ${INPUTDIR}/*; do
inputFile=$(basename $inputFilePath)
echo "Processing input file: " $inputFile
outputFilePath=${OUTPUTDIR}/$inputFile
normalizeAudioFile ${inputFilePath} ${outputFilePath}
done
add a comment |
Here's a script to normalize sound levels of .m4a files. Watch out if the sound levels are too quiet to start with. The final sound can be better if you use something like Audacity in that case.
#!/bin/bash
# Purpose: Use ffmpeg to normalize .m4a audio files to bring them up to max volume, if they at first have negative db volume. Doesn't process them if not. Keeps bitrate same as source files.
# Parameters: $1 should be the name of the directory containing input .m4a files.
# $2 should be the output directory.
INPUTDIR=$1
OUTPUTDIR=$2
<<"COMMENT"
# For ffmpeg arguments http://superuser.com/questions/323119/how-can-i-normalize-audio-using-ffmpeg
# and
# https://kdecherf.com/blog/2012/01/14/ffmpeg-converting-m4a-files-to-mp3-with-the-same-bitrate/
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume
# output: max_volume: -10.3 dB
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep 'max_volume|Duration'
# Output:
# Duration: 00:00:02.14, start: 0.000000, bitrate: 176 kb/s
# [Parsed_volumedetect_0 @ 0x7f8531e011a0] max_volume: -10.3 dB
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume | awk -F': ' '{print $2}' | cut -d' ' -f1
# Output: -10.3
ffmpeg -i test.m4a 2>&1 | grep Audio
# output: Stream #0:0(und): Audio: aac (LC) (mp4a / 0x6134706D), 44100 Hz, stereo, fltp, 170 kb/s (default)
ffmpeg -i test.m4a 2>&1 | grep Audio | awk -F', ' '{print $5}' | cut -d' ' -f1
# output: 170
# This works, but I get a much smaller output file. The sound levels do appear normalized.
ffmpeg -i test.m4a -af "volume=10.3dB" -c:v copy -c:a aac -strict experimental output.m4a
# Operates quietly.
ffmpeg -i test.m4a -af "volume=10.3dB" -c:v copy -c:a aac -strict experimental -b:a 192k output.m4a -loglevel quiet
COMMENT
# $1 (first param) should be the name of a .m4a input file, with .m4a extension
# $2 should be name of output file, with extension
function normalizeAudioFile {
INPUTFILE=$1
OUTPUTFILE=$2
DBLEVEL=`ffmpeg -i ${INPUTFILE} -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume | awk -F': ' '{print $2}' | cut -d' ' -f1`
# We're only going to increase db level if max volume has negative db level.
# Bash doesn't do floating comparison directly
COMPRESULT=`echo ${DBLEVEL}'<'0 | bc -l`
if [ ${COMPRESULT} -eq 1 ]; then
DBLEVEL=`echo "-(${DBLEVEL})" | bc -l`
BITRATE=`ffmpeg -i ${INPUTFILE} 2>&1 | grep Audio | awk -F', ' '{print $5}' | cut -d' ' -f1`
# echo $DBLEVEL
# echo $BITRATE
ffmpeg -i ${INPUTFILE} -af "volume=${DBLEVEL}dB" -c:v copy -c:a aac -strict experimental -b:a ${BITRATE}k ${OUTPUTFILE} -loglevel quiet
else
echo "Already at max db level:" $DBLEVEL "just copying exact file"
cp ${INPUTFILE} ${OUTPUTFILE}
fi
}
for inputFilePath in ${INPUTDIR}/*; do
inputFile=$(basename $inputFilePath)
echo "Processing input file: " $inputFile
outputFilePath=${OUTPUTDIR}/$inputFile
normalizeAudioFile ${inputFilePath} ${outputFilePath}
done
add a comment |
Here's a script to normalize sound levels of .m4a files. Watch out if the sound levels are too quiet to start with. The final sound can be better if you use something like Audacity in that case.
#!/bin/bash
# Purpose: Use ffmpeg to normalize .m4a audio files to bring them up to max volume, if they at first have negative db volume. Doesn't process them if not. Keeps bitrate same as source files.
# Parameters: $1 should be the name of the directory containing input .m4a files.
# $2 should be the output directory.
INPUTDIR=$1
OUTPUTDIR=$2
<<"COMMENT"
# For ffmpeg arguments http://superuser.com/questions/323119/how-can-i-normalize-audio-using-ffmpeg
# and
# https://kdecherf.com/blog/2012/01/14/ffmpeg-converting-m4a-files-to-mp3-with-the-same-bitrate/
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume
# output: max_volume: -10.3 dB
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep 'max_volume|Duration'
# Output:
# Duration: 00:00:02.14, start: 0.000000, bitrate: 176 kb/s
# [Parsed_volumedetect_0 @ 0x7f8531e011a0] max_volume: -10.3 dB
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume | awk -F': ' '{print $2}' | cut -d' ' -f1
# Output: -10.3
ffmpeg -i test.m4a 2>&1 | grep Audio
# output: Stream #0:0(und): Audio: aac (LC) (mp4a / 0x6134706D), 44100 Hz, stereo, fltp, 170 kb/s (default)
ffmpeg -i test.m4a 2>&1 | grep Audio | awk -F', ' '{print $5}' | cut -d' ' -f1
# output: 170
# This works, but I get a much smaller output file. The sound levels do appear normalized.
ffmpeg -i test.m4a -af "volume=10.3dB" -c:v copy -c:a aac -strict experimental output.m4a
# Operates quietly.
ffmpeg -i test.m4a -af "volume=10.3dB" -c:v copy -c:a aac -strict experimental -b:a 192k output.m4a -loglevel quiet
COMMENT
# $1 (first param) should be the name of a .m4a input file, with .m4a extension
# $2 should be name of output file, with extension
function normalizeAudioFile {
INPUTFILE=$1
OUTPUTFILE=$2
DBLEVEL=`ffmpeg -i ${INPUTFILE} -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume | awk -F': ' '{print $2}' | cut -d' ' -f1`
# We're only going to increase db level if max volume has negative db level.
# Bash doesn't do floating comparison directly
COMPRESULT=`echo ${DBLEVEL}'<'0 | bc -l`
if [ ${COMPRESULT} -eq 1 ]; then
DBLEVEL=`echo "-(${DBLEVEL})" | bc -l`
BITRATE=`ffmpeg -i ${INPUTFILE} 2>&1 | grep Audio | awk -F', ' '{print $5}' | cut -d' ' -f1`
# echo $DBLEVEL
# echo $BITRATE
ffmpeg -i ${INPUTFILE} -af "volume=${DBLEVEL}dB" -c:v copy -c:a aac -strict experimental -b:a ${BITRATE}k ${OUTPUTFILE} -loglevel quiet
else
echo "Already at max db level:" $DBLEVEL "just copying exact file"
cp ${INPUTFILE} ${OUTPUTFILE}
fi
}
for inputFilePath in ${INPUTDIR}/*; do
inputFile=$(basename $inputFilePath)
echo "Processing input file: " $inputFile
outputFilePath=${OUTPUTDIR}/$inputFile
normalizeAudioFile ${inputFilePath} ${outputFilePath}
done
Here's a script to normalize sound levels of .m4a files. Watch out if the sound levels are too quiet to start with. The final sound can be better if you use something like Audacity in that case.
#!/bin/bash
# Purpose: Use ffmpeg to normalize .m4a audio files to bring them up to max volume, if they at first have negative db volume. Doesn't process them if not. Keeps bitrate same as source files.
# Parameters: $1 should be the name of the directory containing input .m4a files.
# $2 should be the output directory.
INPUTDIR=$1
OUTPUTDIR=$2
<<"COMMENT"
# For ffmpeg arguments http://superuser.com/questions/323119/how-can-i-normalize-audio-using-ffmpeg
# and
# https://kdecherf.com/blog/2012/01/14/ffmpeg-converting-m4a-files-to-mp3-with-the-same-bitrate/
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume
# output: max_volume: -10.3 dB
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep 'max_volume|Duration'
# Output:
# Duration: 00:00:02.14, start: 0.000000, bitrate: 176 kb/s
# [Parsed_volumedetect_0 @ 0x7f8531e011a0] max_volume: -10.3 dB
ffmpeg -i test.m4a -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume | awk -F': ' '{print $2}' | cut -d' ' -f1
# Output: -10.3
ffmpeg -i test.m4a 2>&1 | grep Audio
# output: Stream #0:0(und): Audio: aac (LC) (mp4a / 0x6134706D), 44100 Hz, stereo, fltp, 170 kb/s (default)
ffmpeg -i test.m4a 2>&1 | grep Audio | awk -F', ' '{print $5}' | cut -d' ' -f1
# output: 170
# This works, but I get a much smaller output file. The sound levels do appear normalized.
ffmpeg -i test.m4a -af "volume=10.3dB" -c:v copy -c:a aac -strict experimental output.m4a
# Operates quietly.
ffmpeg -i test.m4a -af "volume=10.3dB" -c:v copy -c:a aac -strict experimental -b:a 192k output.m4a -loglevel quiet
COMMENT
# $1 (first param) should be the name of a .m4a input file, with .m4a extension
# $2 should be name of output file, with extension
function normalizeAudioFile {
INPUTFILE=$1
OUTPUTFILE=$2
DBLEVEL=`ffmpeg -i ${INPUTFILE} -af "volumedetect" -f null /dev/null 2>&1 | grep max_volume | awk -F': ' '{print $2}' | cut -d' ' -f1`
# We're only going to increase db level if max volume has negative db level.
# Bash doesn't do floating comparison directly
COMPRESULT=`echo ${DBLEVEL}'<'0 | bc -l`
if [ ${COMPRESULT} -eq 1 ]; then
DBLEVEL=`echo "-(${DBLEVEL})" | bc -l`
BITRATE=`ffmpeg -i ${INPUTFILE} 2>&1 | grep Audio | awk -F', ' '{print $5}' | cut -d' ' -f1`
# echo $DBLEVEL
# echo $BITRATE
ffmpeg -i ${INPUTFILE} -af "volume=${DBLEVEL}dB" -c:v copy -c:a aac -strict experimental -b:a ${BITRATE}k ${OUTPUTFILE} -loglevel quiet
else
echo "Already at max db level:" $DBLEVEL "just copying exact file"
cp ${INPUTFILE} ${OUTPUTFILE}
fi
}
for inputFilePath in ${INPUTDIR}/*; do
inputFile=$(basename $inputFilePath)
echo "Processing input file: " $inputFile
outputFilePath=${OUTPUTDIR}/$inputFile
normalizeAudioFile ${inputFilePath} ${outputFilePath}
done
answered Sep 12 '15 at 4:57
Chris PrinceChris Prince
15112
15112
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1
You're looking to have the audio 'normalized.' I found this thread and there's lots of good information in there. Hope it helps!
– bobsbarricades
Aug 14 '11 at 20:02