Difference between revisions of "Rohlig Audio"
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'''3.''' Make MP3 versions of WAV files using [http://www.rarewares.org/mp3-lamedrop.php lamedropXPd3] by dragging and dropping WAV files into the Lame Drop Box.
'''3.''' Make MP3 versions of WAV files using [http://www.rarewares.org/mp3-lamedrop.php lamedropXPd3] by dragging and dropping WAV files into the Lame Drop Box. Drop will put MP3 versions into the same folder as the original WAVs. Place the MP3 files on shared public folder for MAF, who then uses the files to create metadata (including track timecodes) on a shared Excel sheet.
Revision as of 12:56, 18 February 2014
An exception to the workflow spelled out in Most Content is the Rohlig audio. We digitize the master, create derivatives for Mary Alice Fields, who then listens to them and determines which sections should be omitted and creates metadata. When her contribution returns, we create an MP3 for each track specified. These MP3s need to be uploaded with the MODS and distributed in Acumen. OCR of transcripts is handled by the makeJpegs script. See below for more details.
1. Digitize reels into master WAV files on local computer.
2. Use Sound Forge to optimize master WAV files; upload copy of optimized WAV files to share drive.
• Remove non-native silence between tracks • Leave (or create if needed) 2 seconds of leading silence before each track • Level Volume
3. Make MP3 versions of WAV files using lamedropXPd3 by dragging and dropping WAV files into the Lame Drop Box. Lame Drop will then put MP3 versions of each file into the same folder as the original WAVs. Place the MP3 files on shared public folder for MAF, who then uses the files to create metadata (including track timecodes) on a shared Excel sheet.
4. Copy metadata from MAF’s shared Excel sheet and paste to appropriate cells (changing format as needed) in main metadata Excel sheet.
5. Provide Metadata to Metadata Librarian for remediation.
6. Use MAF’s metadata to create a TXT file of filenames and track timecodes (only the begin times are used, as each track's begin time is the previous track's end time. The first track's begin time is always 00:00). Place the TXT file into the Cue INPUT folder.
• TXT file should follow this pattern (using a single-space between filename and begin time): Filename1 Begin Time Filename2 Begin Time
7. Use Cue_GUI to run the CueMaker and CueSplitter scripts for each item. (The scripts will use the track timecodes to create a CUE file, use the CUE file to split the master WAV file into sub-item tracks, convert the tracks from WAV to MP3 format, and save the resulting files to the Cue OUTPUT folder while naming them appropriately.)
8. Create MODS using Archivist Utility (use m02 template).
9. Run makeAudioJpegs script which will create JPEGs (if we have transcripts) and QC's the MP3 files.
10. Run relocate_audio script to upload MP3s, JPEGs, and MODS into Acumen.
11. Run moveAudioContent script to archive master WAV files and MODS.
Future Changes to Workflow
Austin is working on further improving the audio workflow. Future projects include tweaking the CueMaker script to enhance efficiency, automating the creation of the input txt file, and automating the volume leveling.
The volume leveling is important because if you were listening to two separate tracks from our database, one after the other, and there was a drastic change in volume between the two, it would prove to be distracting. But leveling the volume programmatically is challenging. There is not a standardized approach for accomplishing this. One method involves cutting off the highs and lows so all audio fits into a certain narrow range. However, this is a destructive process and results in a loss of information, and thus a deteriorated sound. There are other methods we are researching, some involve averaging the highs and lows, others add gain until all tracks are at the same level. They each have their pros and cons, and we are still in the process of determining which system is best suited to our needs. Other issues involve the definition of "volume". Volume is usually attributed to sound pressure, which is measured in decibels, but this is not a precise unit of measurement. Also, perceived volume and decibel value are not the same, so two audio files at the same technical volume might sound radically different to the human ear based on factors such as audio frequency. All of these considerations must be taken into account before a solution can be decided on and scripted out.