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A shotgun microphone comports a waste of time for covering all the directions on the hemisphere, changing more than one point of measure inside the theatre. For this reason we tried with a different approach employing a microphone array.

In particulr we used an Eigenmike probe from mhAcoustics.

It is made of 32 capsules, pre amplifiers and A/D converters packed inside the sphere. All the signals…

The idea is to synthetize 32 directive virtual microphones in the direction of the capsules employing a set of digital filters.

We have 32 signals coming from the capsules and we desire 32 signals yielding the virtual microphones: so we need a bank of MxV FIR filters.

The convolution of the inputs with the filters gives as output the virtual microphone.

ALLA FINE della SLIDE:

“all the informations about the processing are availble in our previous paper presente at the past AES Conference in Tokio”

----- Note riunione (5/10/11 15:02) -----

7 minuti

With a Matlab script we can perform the matrix inversion

The aim of the post processing is a movie representing the behaviour of the sound through a polar plot of the sound levels in the horizontal plane and a mesh map of the levels on a 360°x180° picture of the room.

At first we import the wav files containing the Impulse Responses obtained from the 32 virtual microphones.

[SUI DISEGNI]

For the horizontal polare we synthesize 24 virtual microphones and for the 3D map we created 32 virtual microphones in the direction of the capsules.