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Warning: the discussion is drifting to DIY electronic gadgetry. :)
On Sun, 31 Jan 2016 11:16:26 +0100,
Bo-Erik Sandholm wrote :
> I have decided to simplify the DIY head tracking dongle build and
> setup in some aspects, now I have ordered this sensor that do not
> need initial calibration.
>
--On 31 January 2016 10:58 -0500 Marc Lavallée
wrote:
> Warning: the discussion is drifting to DIY electronic gadgetry. :)
I just got some new electronic gadgetry. :-) Not home-made, though,
commercial, designated with a block of random letters and numbers:
something like SPS200...
Paul
--
cking information back to the computer, which will have
> > the software to play standard first order B-format files decoded to
> > binaural, using simple HRTF filters. The computer can be your
> > desktop, a tablet computer or a mobile.
> >
> > umashankar
>
> For a
The BNO055 is a wonder.
Here's a complete integration with bluetooth:
https://www.youtube.com/watch?v=84MOS78-Hso
Too bad the schematics are not provided.
The sensor looks easy to use, but it needs calibration:
https://www.youtube.com/watch?v=Nz4EozK4cPY
If made small enough, a complete device c
obile.
umashankar
For a DIY project, integrating head-tracking and audio would be a lot,
and the resulting device could be rather large. But I may be wrong.
--
Marc
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Marc Lavallée wrote:
The BNO055 is a wonder.
Fully agreed. This sensor looks and feels like a quality solution. 100Hz
updates are sufficient for our needs.
Here's a complete integration with bluetooth:
https://www.youtube.com/watch?v=84MOS78-Hso
Too bad the schematics are not provided.
T
On Mon, 01 Feb 2016 01:17:42 +,
Stefan Schreiber wrote :
> Again: You need a defined plan what your device is supposed to do, to
> connect to which devices (PCs? iOS/Android devices? ...), etc.
The plan is to track the orientation of a moving body part that is
known to affect our ability to
VVaudio working in audio mulch will accept midi to control parameters like
azimuth and elevation. There are plenty of two board (but tiny boards) that
will provide usb output from a 9degrees of freedom chip. We just need to
convert X and Y to midistreams. Would like to see it integrated audio o
Marc Lavallée wrote:
On Mon, 01 Feb 2016 01:17:42 +,
Stefan Schreiber wrote :
Again: You need a defined plan what your device is supposed to do, to
connect to which devices (PCs? iOS/Android devices? ...), etc.
The plan is to track the orientation of a moving body part that is
k
umashankar manthravadi wrote:
VVaudio working in audio mulch will accept midi to control parameters like
azimuth and elevation. There are plenty of two board (but tiny boards) that
will provide usb output from a 9degrees of freedom chip. We just need to
convert X and Y to midistreams. Would
On Mon, 1 Feb 2016 07:53:46 +0530,
umashankar manthravadi wrote :
> VVaudio working in audio mulch will accept midi to control parameters
> like azimuth and elevation. There are plenty of two board (but tiny
> boards) that will provide usb output from a 9degrees of freedom
> chip. We just need t
Dear marc
There seem to be dozens of nine axis (three each of gyro, magnetic and
accelerometer with two data and two power pins connecting to usb Arduino – here
are some links
https://www.adafruit.com/products/1714
https://www.pjrc.com/store/teensy.html
http://www.ebay.com/itm/ws/eBayISAPI.dll?
I am not really very structured and gets distracted easily, in this
experiment the final hardware setup is not decided, currently my software
structure thinking is like this.
OSC for the protocol as most available Ambisonics sw is VST's for PC or Mac
and Reaper accepts OSC for controls. If done ri
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