Multispeaker sound imaging system
First Claim
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:
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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;
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.
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Abstract
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. Listeners located in different places within the listening area, can have an audible perception of an equivalent distribution to that of the conventional two channel stereo system. Additionally they will have an audible central perception of the centered program material equivalent to that obtained from the conventional two channel stereo system when the listeners are located in a median plane of the conventional two channel stereo system speakers.
10 Citations
14 Claims
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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:
-
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;
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. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
S1=(L+C)+K·
(L−
R), a last output channel with a last signal of the type;
S2n=(R+C)+K·
(R−
L), producing said four or more even number of audio output signals of the type;
Sj=C+L·
M−
R·
(M−
1) as a result of multiple signal divisions between said first signal and said last signal, where 2n is a number of said four or more even number of audio output channels, j is any of 2n output channels with an integer value from 1 to 2n, (L+C) is said left stereo channel audio signal, (R+C) is said right stereo channel audio signal, C is a central program audio signal of said left and right stereo channel audio signals, (R−
L) is a result of the difference of said left stereo channel audio signal from said right stereo channel audio signal, (L−
R) is an inverted (R−
L) signal,and K is said adjustable parameter.
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3. The sound imaging system set forth in claim 2, wherein said speaker array comprised by said four or more even number of speakers, is arranged in a horizontal pattern, with equal distances between contiguous speakers, and positioned in such a way that said conventional two channel stereo system speakers are replaced by said speaker array of said four or more even number of speakers.
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4. The sound imaging system set forth in claim 3, wherein said speaker array is located in such a position that, at a first predetermined distance in between a first speaker of said four or more even number of speakers and one-third of a total width of said speaker array taken from the left, is a left speaker equivalent position of said conventional two channel stereo system and that, at a second predetermined distance in between a most right speaker and one-third of said total width of said speaker array taken from the right, is a right speaker equivalent position of said conventional two channel stereo system, said speaker array symmetrically positioned to said conventional two channel stereo system speakers equivalent locations.
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5. The sound imaging system set forth in claim 4, wherein a 2n even number of four or more speakers comprising said speaker array and a positioning of said speaker array with respect to said conventional two channel stereo system speakers within said first and second predetermined distances for said listening area, determine a value of said adjustable parameter, when making said second summing localization of said second audio image positioning generated by said speaker array equal to said first summing localization of said first audio image generated by said conventional two channel stereo system speakers, said adjustable parameter being adjustable by a user.
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6. The sound imaging system set forth in claim 5, wherein a listening area width will determine a selection of said 2n even number of four or more speakers.
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7. The sound imaging system set forth in claim 6, including a first adjustment means for said user, for adjusting a number of said four or more even number of output channels by means of electrical switch selectors.
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8. The sound imaging system set forth in claim 7, including second adjustment means for said user, for adjusting said adjustable parameter by means of a potentiometer.
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9. The sound imaging system set forth in claim 8, wherein said adjustable parameter is adjustable within a range of 0 and 1.
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10. The sound imaging system set forth in claim 9, wherein a value for said adjustable parameter is displayed.
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11. The sound imaging system set forth in claim 10, wherein said four or more even number of output channels are connected respectively with said amplifiers driving said 2n even number of four or more speakers, each positioned in said speaker array, wherein said 2n even number of four or more speakers originate (4n−
- 3) listener position lines within said listening area which are perpendicular to said speaker array.
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12. The sound imaging system set forth in claim 11, wherein said listening area of said sound imaging system has a width extension located in between a center point of two most left speakers and a center point of two most right speakers of said speaker array.
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13. The sound imaging system set forth in claim 12, wherein said speaker array is a single row speaker array.
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14. The sound imaging system set forth in claim 13, wherein a multiple number of said speaker arrays installed horizontally and connected in parallel by columns, are used when the extension of the depth of said listening area requirements so demand.
Specification