Multispeaker sound imaging system

1. A sound imaging system, which by processing left and right stereo channel audio signals of a conventional two channel stereo system, distributes signals to a speaker array of a number of speakers determined by a listening area, in which listeners located in different places within said listening area, has audible perception of an equivalent distribution to that of said conventional two channel stereo system, additionally having an audible central perception of centred program material equivalent to that obtained from said conventional two channel stereo system, when said listeners are located in a median plane of the conventional two channel stereo system speakers further comprising first and second input channels for receiving said left and right stereo channel audio signals, four or more even number of output channels delivering four or more even number of audio output signals respectively as a result of processing said left and right stereo channel audio signals, wherein said four or more even number of audio output signals are a function of said left and right stereo channel audio signals, and an adjustable parameter, wherein said first and second input channels are configured to receive said left and right stereo channel audio signals from said conventional two channel stereo system and said four or more even number of output channels are configured to be connected to a same number of audio amplifiers in order to drive four or more even number of speakers set as said speaker array, and wherein a method for determining said adjustable parameter is presented by making equal a first summing localization of a first audio image produced by two sound sources to a second summing localization of a second audio image produced by four or more sound sources, where for said two sound sources:

• $D_{\mathrm{ST}}=\frac{S_1^{\mathrm{\prime <br><br>}}·<br><br>D_1^{\mathrm{\prime <br><br>}}+S_2^{\mathrm{\prime <br><br>}}·<br><br>D_2^{\mathrm{\prime <br><br>}}}{S_1^{\mathrm{\prime <br><br>}}+S_2^{\mathrm{\prime <br><br>}}}$in which S′
  
  1 is a first signal amplitude at a first distance D′
  
  1 from an origin, S′
  
  2 is a second signal amplitude at a second distance D′
  
  2 from said origin, said first summing localization of said first audio image is located at a distance DST from said origin, wherein S′
  
  1 and S′
  
  2 are signals of same frequency and phase, but different amplitude; and
  
  for said four or more sound sources;
  
  $D_{\mathrm{MSI2N}}=\frac{\underset{j=1}{\overset{2<br><br>n}{\sum <br><br>}}<br><br>\left(D_j·<br><br>S_j\right)}{\underset{j=1}{\overset{2<br><br>n}{\sum <br><br>}}<br><br>S_j}$in which Sj is the amplitude of the j source, j is any of 2n sources, 2n is the number of said four or more sound sources, Dj is the distance between said four or more sound sources and said origin, said second summing localization of said second audio image is located at a distance DMSI2N from said origin, wherein Sj are signals of same frequency and phase, but different amplitude.