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Médias (1)
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Bug de détection d’ogg
22 mars 2013, par
Mis à jour : Avril 2013
Langue : français
Type : Video
Autres articles (111)
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Support audio et vidéo HTML5
10 avril 2011MediaSPIP utilise les balises HTML5 video et audio pour la lecture de documents multimedia en profitant des dernières innovations du W3C supportées par les navigateurs modernes.
Pour les navigateurs plus anciens, le lecteur flash Flowplayer est utilisé.
Le lecteur HTML5 utilisé a été spécifiquement créé pour MediaSPIP : il est complètement modifiable graphiquement pour correspondre à un thème choisi.
Ces technologies permettent de distribuer vidéo et son à la fois sur des ordinateurs conventionnels (...) -
HTML5 audio and video support
13 avril 2011, parMediaSPIP uses HTML5 video and audio tags to play multimedia files, taking advantage of the latest W3C innovations supported by modern browsers.
The MediaSPIP player used has been created specifically for MediaSPIP and can be easily adapted to fit in with a specific theme.
For older browsers the Flowplayer flash fallback is used.
MediaSPIP allows for media playback on major mobile platforms with the above (...) -
De l’upload à la vidéo finale [version standalone]
31 janvier 2010, parLe chemin d’un document audio ou vidéo dans SPIPMotion est divisé en trois étapes distinctes.
Upload et récupération d’informations de la vidéo source
Dans un premier temps, il est nécessaire de créer un article SPIP et de lui joindre le document vidéo "source".
Au moment où ce document est joint à l’article, deux actions supplémentaires au comportement normal sont exécutées : La récupération des informations techniques des flux audio et video du fichier ; La génération d’une vignette : extraction d’une (...)
Sur d’autres sites (7063)
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finding speed and tone of speech in an audio using python
1er février 2018, par kRazzy RGiven an audio , I want to calculate the pace of the speech. i.e how fast or slow is it.
Currently I am doing the following :
convert speech to text and obtaining a transcript (using a free tool).
count number of words in transcript.
calculate length or duration of file.
finally, pace = (number of words in transcript / duration of file).However the accuracy of the pace obtained is dependent purely on transcription , which I think is an unnecessary step.
Is there any python-library/sox/ffmpeg way that will enable me to
- to calculate, in a straightforward way,the speed/pace of talk in an audio
- dominant Pitches/tones of that audio ?
I referred : I referred : http://sox.sourceforge.net/sox.html and https://digitalcardboard.com/blog/2009/08/25/the-sox-of-silence/
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Convert audio files to mp3 using ffmpeg [closed]
24 mars, par Hrishikesh -Rishi- ChoudhariI need to convert audio files to mp3 using ffmpeg.



When I write the command as
ffmpeg -i audio.ogg -acodec mp3 newfile.mp3, I get the error :


FFmpeg version 0.5.2, Copyright (c) 2000-2009 Fabrice Bellard, et al.
 configuration: 
 libavutil 49.15. 0 / 49.15. 0
 libavcodec 52.20. 1 / 52.20. 1
 libavformat 52.31. 0 / 52.31. 0
 libavdevice 52. 1. 0 / 52. 1. 0
 built on Jun 24 2010 14:56:20, gcc: 4.4.1
Input #0, mp3, from 'ZHRE.mp3':
 Duration: 00:04:12.52, start: 0.000000, bitrate: 208 kb/s
 Stream #0.0: Audio: mp3, 44100 Hz, stereo, s16, 256 kb/s
Output #0, mp3, to 'audio.mp3':
 Stream #0.0: Audio: 0x0000, 44100 Hz, stereo, s16, 64 kb/s
Stream mapping:
 Stream #0.0 -> #0.0
Unsupported codec for output stream #0.0



I also ran this command :



ffmpeg -formats | grep mp3



and got this in response :



FFmpeg version 0.5.2, Copyright (c) 2000-2009 Fabrice Bellard, et al.
 configuration: 
 libavutil 49.15. 0 / 49.15. 0
 libavcodec 52.20. 1 / 52.20. 1
 libavformat 52.31. 0 / 52.31. 0
 libavdevice 52. 1. 0 / 52. 1. 0
 built on Jun 24 2010 14:56:20, gcc: 4.4.1
 DE mp3 MPEG audio layer 3
 D A mp3 MP3 (MPEG audio layer 3)
 D A mp3adu ADU (Application Data Unit) MP3 (MPEG audio layer 3)
 D A mp3on4 MP3onMP4
 text2movsub remove_extra noise mov2textsub mp3decomp mp3comp mjpegadump imxdump h264_mp4toannexb dump_extra



I guess that the mp3 codec isn't installed. Am I on the right track here ?


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Audacity vocal removal failed when ffmpeg-conversion was involved
10 mars 2018, par fyangI downloaded some songs coded with FLAC, and Audacity could remove the vocals quite well.
When I downloaded songs coded with ALAC, I must use ffmpeg to convert them to some other forms because Audacity didn’t recognise .m4a files.
I used the command
ffmpeg -i "song 01.m4a" -f flac "song 01.flac". Now Audacity could load the song, but its vocal removal failed to remove the vocals.I tried again with this command in order to be precise,
ffmpeg -i "song 01.m4a" -af "pan=stereo|c0=c0|c1=c1" -f flac "song 01.flac", and vocal removal did not work either.I tried to do it manually by splitting, inverting and changing both channels to mono, but the vocals were still there.
I think the problem lies with the ffmpeg conversion step. Is there any fix ? Thanks !
Below is the result of the conversion :
ffmpeg -i "song 01.m4a" -af "pan=stereo|c0=c0|c1=c1" -f flac "song 01.flac"
ffmpeg version N-90143-gb6652f5100 Copyright (c) 2000-2018 the FFmpeg developers
built with gcc 7.3.0 (GCC)
configuration: --enable-gpl --enable-version3 --enable-sdl2 --enable-bzlib --enable-fontconfig --enable-gnutls --enable-iconv --enable-libass --enable-libbluray --enable-libfreetype --enable-libmp3lame --enable-libopencore-amrnb --enable-libopencore-amrwb --enable-libopenjpeg --enable-libopus --enable-libshine --enable-libsnappy --enable-libsoxr --enable-libtheora --enable-libtwolame --enable-libvpx --enable-libwavpack --enable-libwebp --enable-libx264 --enable-libx265 --enable-libxml2 --enable-libzimg --enable-lzma --enable-zlib --enable-gmp --enable-libvidstab --enable-libvorbis --enable-libvo-amrwbenc --enable-libmysofa --enable-libspeex --enable-libxvid --enable-libmfx --enable-amf --enable-cuda --enable-cuvid --enable-d3d11va --enable-nvenc --enable-dxva2 --enable-avisynth
libavutil 56. 7.101 / 56. 7.101
libavcodec 58. 12.102 / 58. 12.102
libavformat 58. 9.100 / 58. 9.100
libavdevice 58. 2.100 / 58. 2.100
libavfilter 7. 12.100 / 7. 12.100
libswscale 5. 0.101 / 5. 0.101
libswresample 3. 0.101 / 3. 0.101
libpostproc 55. 0.100 / 55. 0.100
[mov,mp4,m4a,3gp,3g2,mj2 @ 0000019f2b258000] stream 0, timescale not set
Input #0, mov,mp4,m4a,3gp,3g2,mj2, from 'song 01.m4a':
Metadata:
major_brand : M4A
minor_version : 0
compatible_brands: M4A mp42isom
creation_time : 2009-12-27T00:15:23.000000Z
track : 1/10
genre :
album :
artist :
comment : ExactAudioCopy v0.95b4
DISCID :
iTunNORM : 00000F32 00000E1D 0000547D 00005B93 0006C3CA 0006C43E 00007FF8 00007FFF 00058227 0003593B
title : song 01
encoder : iTunes 9.0.2.25
date : 2005
album_artist :
lyrics :
Duration: 00:08:10.84, start: 0.000000, bitrate: 921 kb/s
Stream #0:0(und): Audio: alac (alac / 0x63616C61), 44100 Hz, stereo, s16p, 920 kb/s (default)
Metadata:
creation_time : 2009-12-27T00:15:23.000000Z
Stream #0:1: Video: mjpeg, yuvj444p(pc, bt470bg/unknown/unknown), 300x300 [SAR 100:100 DAR 1:1], 90k tbr, 90k tbn, 90k tbc
Stream mapping:
Stream #0:0 -> #0:0 (alac (native) -> flac (native))
Press [q] to stop, [?] for help
[Parsed_pan_0 @ 0000019f2b2a6fc0] Pure channel mapping detected: 0 1
Output #0, flac, to 'song 01.flac':
Metadata:
major_brand : M4A
minor_version : 0
compatible_brands: M4A mp42isom
lyrics :
TRACKNUMBER : 1/10
genre :
album :
artist :
DESCRIPTION : ExactAudioCopy v0.95b4
DISCID :
iTunNORM : 00000F32 00000E1D 0000547D 00005B93 0006C3CA 0006C43E 00007FF8 00007FFF 00058227 0003593B
title : song 01
ALBUMARTIST :
date : 2005
encoder : Lavf58.9.100
Stream #0:0(und): Audio: flac, 44100 Hz, stereo, s16, 128 kb/s (default)
Metadata:
creation_time : 2009-12-27T00:15:23.000000Z
encoder : Lavc58.12.102 flac
size= 54518kB time=00:08:10.84 bitrate= 909.9kbits/s speed= 35x
video:0kB audio:54508kB subtitle:0kB other streams:0kB global headers:0kB muxing overhead: 0.018294%
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