May 2014 - Page 7 of 10 - reactive music

An index pointer (file phasor) scans from the beginning to the end of the file. For example, at 44.1KHz, a 1 second file of audio would have 44,100 samples. Each sample is 022676 ms. Another phasor (grain phasor) scans small chunks (grains) of audio. If audio is playing back at the normal rate and pitch, this grain phasor runs at zero. the file phasor just moves sequentially from one grain to the next.

To stretch the time, the file phasor is slowed down, but the grain phasor speeds up, scanning grains of audio, that start at the current file phasor index. In this way, in listening to the file from beginning to end, you are actually listening to a series of overlapping grains.

As the chunk (grain) size increases the grain phasor frequency decreases.

To raise the pitch, the grain phasor frequency would be increased. To lower the pitch, the phasor frequency goes negative and increases in a negative direction to reduce pitch further.

As you can see, while running this patch, the chunk size, pitch, and speed are all related by a single equation.

phasor frequency = ((pitch / 120)**2 – speed) / chunksize

where pitch is in cents (0 is normal)
speed is a scaling factor (1 is normal)
chunk (grain) size is in ms.

So the input values interact with each other.

In addition, the grain player uses a technique called PSOLA. Pitch synchronous overlap and add. There are actually two grain players playing simultaneously 180 degrees out of phase. Each is windowed using a positive cosine function. This helps to reduce clicks by crossfading from one grain to the next.

There is some comb-filtering and ringing present on the audio. There are various techniques to reduce this, including:

trying different window functions
higher sample rates
changing the overlap
varying the grain size

Interesting artifacts:

reducing the grain size to several ms. causes oscillation similar to the Karplus-Strong effect
increasing the grain size to around 1000 ms. causes a feedback delay effect due to the out of phase grain players
setting the overlap to anything other than .5 causes random phase cancellation

Manual or automated scrubbing.

There is also an option to manually scrub the file. This way you can listen to the texture of grains of various sizes from various points in the file.

You can also set random automatic scrubbing to branch to various points in the file.

May 16, 2014June 14, 2014

Web video streaming in Max

Stream realtime video from a web browser into Max or any program that uses Syphon.

CefWithSyphon (developed by Vibeke Bertelsen) launches a web browser and Syphon server. The Max patch operates a Syphon client that receives a video stream from the server and makes it available to Jitter objects.

download

https://github.com/tkzic/max-projects

folder: web-video-streaming

patch: jit.gl.syphonclient.maxhelp

externals:

jit.gl.syphonclient.mxo:

Note: externals are included with max-projects but can also be downloaded here: http://syphon.v002.info

other dependencies (app)

CefWithSyphon.app

Download the CefWIthSyphon app from here: https://github.com/vibber/CefWithSyphon – A Mac OS binary is available and has been tested with Mac OS 10.9.2

Instructions

Open the client example /jit.gl.syphonclient.maxhelp in Max
Run the CefWithSyphon app. It will launch a browser
The browser content should now stream to the clientcontext window in Max
If not streaming, click the “getavailableservers” message and select the correct server/client from menu objects outlined in red