ManyEarsPackages
From IntRoLab
Contents
Packages
WIN32 Packages
- Install the FlowDesigner Package
- Download and install File:FlowDesigner-0.10.0-win32.rar
- FlowDesigner must be added to the PATH with the installer (when asked)
- Install the ManyEars Package
- Download and install File:ManyEars-0.2.rar
- Run FlowDesigner from the start menu
- (Optional) run audioviewer from C:\Program Files\FlowDesigner\bin
Notes : June 5 2009. Packages uploaded.
OSX Packages
- Download and mount this image :
- File:FlowDesigner-0.10.0-RW.dmg
- Run FlowDesigner from the mounted image
If you want to run the audioviewer (after the image is mounted) :
- Start the terminal
- Enter the following commands :
- export PATH=/Volumes/FlowDesigner-0.10.0/FlowDesigner.app/Contents/Resources/bin:$PATH
- export DYLD_LIBRARY_PATH=/Volumes/FlowDesigner-0.10.0/FlowDesigner.app/Contents/Resources/lib/
- export DYLD_LIBRARY_PATH=$DYLD_LIBRARY_PATH:/Volumes/FlowDesigner-0.10.0/FlowDesigner.app/Contents/Resources/lib/flowdesigner/toolbox/ManyEars/lib/
- (Optional) Start audioviewer
- audioviewer
Configuration
The following examples will output localization with OSC with the following configuration :
- host = 127.0.0.1
- port= 5678
Those settings can be changed by editing the .n files with FlowDesigner.
Microphone Array Configuration
Here is an example of cube configuration. Each microphone configuration must be ordered the same way they are connected to the sound card.
<Matrix <rows 8> <cols 3> <data -18 16 -15.5 -18 16 15.5 18 16 -15.5 18 16 15.5 -18 -16 -15.5 -18 -16 15.5 18 -16 -15.5 18 -16 15.5 > >
Planar Array Configuration for 3D (with distance approximation)
- Run This file for 3D localization
- File:Tracking3D.n
- Notice that the z value for all microphones in this example is 0 meaning that all microphones are in the same plane.
Standard Array Configuration (without distance approximation)
- Use this file for standard configuration
OSC Format
//HEADER CONTAINS 24 BYTES char header[12] = {'/','m','a','n','y','e','a','r','s', '\0', '\0','\0'}; char tags[12] = {',','i','f','f','f','f','f','f','f','\0','\0','\0'}; //DATA CONTAINS 32 BYTES BinIO::write<int>(outputString,&id,1); BinIO::write<float>(outputString,&x,1); BinIO::write<float>(outputString,&y,1); BinIO::write<float>(outputString,&z,1); BinIO::write<float>(outputString,&strength,1); BinIO::write<float>(outputString,&theta,1); BinIO::write<float>(outputString,&phi,1); BinIO::write<float>(outputString,&distance,1); //TOTAL = 56 BYTES