EGG-D800
The Phonology Lab has an EGG-D800 electroglottograph from Laryngograph for performing EGG and aerodynamic studies. Consult with Susan Lin for permission to use this system.
Data acquisition workflow
The standard way to acquire EGG and aerodynamic data is to run a configuration utility for the EGG-D800 and then record with standard audio recording software. When aerodynamic channels are included in the recording it is necessary to separate those signals from the audio and EGG signals in postprocessing.
At present the EGG-D800 is supported on Windows systems only.
Install and configure the EGG-D800
The first step is to install the EGG-D800 and configure it with the eggrec
utility.
- Attach the EGG-D800 to the host Windows computer with a USB cable. It will automatically install as a USB Audio device.
- Audio and EGG signals are always acquired by the EGG-D800. If you also require aerodynamic signals, give the command:
eggrec --aero
Try eggrec --help
for additional detail on how to use eggrec
.
In our experience the EGG-D800 will automatically be installed as the default audio device. If it does not become the default it will be necessary to use the Windows mixer to make it the default, or you will have to select the EGG-D800 as the input device in your recording software.
Make a recording
Once the EGG-D800 has been configured you can make a recording with any audio recorder you wish. The important thing is to make sure the recording parameters match the data stream coming from the EGG-D800. Normally this means you should record two channels of 16-bit audio at 48,000 samples/sec. For example, to record with the sox
alias rec
:
rec -c 2 -b 16 -r 48000 somefile.wav
This command creates a new file named somefile.wav
with the correct format.
It is very important that you record in stereo and that the sample rate is half the EGG-D800's total data rate (its default total rate: 96,000 samples/sec).
Postprocessing
No postprocessing is necessary if you did not enable the aerodynamic channels of the EGG-D800. Your output .wav
file contains two channels, with the microphone signal in the first (left) channel and the EGG signal in the second (right) channel. The sample rate for each channel is normally 48,000 samples/sec.
If the aerodynamic channels were enabled, then your output .wav
file contains two channels, with the microphone signal interleaved with the P2 signal in the first (left) channel, and the EGG signal interleaved with the P1 signal in the second (right) channel. The audio/EGG signals are the even-numbered samples in their channels, and the aerodyanmic signals are the odd-numbered samples. The effective sample rate for each of the signals is normally 24,000 samples/sec.
Use the eggsep
utility to separate each of the signals into separate files. This command separates somefile.wav
into somefile.audio.wav
, somefile.lx.wav
, somefile.p1.wav
, and somefile.p2.wav
:
eggsep somefile.wav
eggsep
also has a seek
mode that searches a directory tree for .wav
files and attempts to separate the signals. By default it will not attempt to separate signals that have already been separated by eggsep
. This means you can keep all your acquisitions in a single parent directory and safely run eggsep
in seek
mode in that directory after every acquisition session:
eggsep --seek C:\myacqdir