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== Noisering Analysis by Babaluma == | == Noisering Analysis by Babaluma == | ||
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http://www.wiard.com/1200/NR/Noise_Ring.html | http://www.wiard.com/1200/NR/Noise_Ring.html | ||
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i will be referring to the block diagram he posted. | i will be referring to the block diagram he posted. | ||
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I don't know if this is scientifically true, but it is believeable that the ear does both types of entropy measurements at a very fundimental level. The ear uses a kind of "battery" system to supply the ear, because blood flow would be too noisy. The ear uses "hairs" to sense both level and frequency information. IF an excited cell uses more "current" than a non-excited one, then the way the ear is structured, the information entropy is proportional to the "current draw" for the two different "hair" structures. One for levels (amplifier cells) and one for time spectrum entropy (cochlial cells). Higher information entropy excites more cells, which draw more "current". | I don't know if this is scientifically true, but it is believeable that the ear does both types of entropy measurements at a very fundimental level. The ear uses a kind of "battery" system to supply the ear, because blood flow would be too noisy. The ear uses "hairs" to sense both level and frequency information. IF an excited cell uses more "current" than a non-excited one, then the way the ear is structured, the information entropy is proportional to the "current draw" for the two different "hair" structures. One for levels (amplifier cells) and one for time spectrum entropy (cochlial cells). Higher information entropy excites more cells, which draw more "current". | ||
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