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Non-linear Ear Distortion?
Hello,
In addition to the Fletcher-Munson equal loudness curves describing our psycho-acoustic response, are there any curves to describe distortion in the ears? ie. Does each set of ears/brain have a second and third order intermodulation intercept point? ie. Can you be bombarded with large SPLs of pure sinewaves at 20kHz and 24kHz and perceive 4kHz (F2-F1) and 16kHz (2F1-F2). I'm sure it's vastly more complicated than this....? |
Non-linear Ear Distortion?
In article , םחכילטמ
wrote: Hello, In addition to the Fletcher-Munson equal loudness curves describing our psycho-acoustic response, are there any curves to describe distortion in the ears? ie. Does each set of ears/brain have a second and third order intermodulation intercept point? ie. Can you be bombarded with large SPLs of pure sinewaves at 20kHz and 24kHz and perceive 4kHz (F2-F1) and 16kHz (2F1-F2). I'm sure it's vastly more complicated than this....? As Arny has said, "yes"... :-) There are a number of physiological measurements that show things like the levels of two-tone intermodulation effects in the ear. The real difficulty is in interpeting the meaning of such measurements as the brain processes the output of the ear sensor system and the resulting perceptions then attempts to 'take this into account' in a complex signal-dependent manner. You don't need either high powers or high freqencies to observe nonlinear responses in the ear. IIRC many of the papers use just a few kHz. The papers I have on this are at work. If I remeber to do so, I'll note the main review paper reference I found and post it later on in case you are interested. Slainte, Jim -- Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Audio Misc http://www.st-and.demon.co.uk/AudioMisc/index.html Armstrong Audio http://www.st-and.demon.co.uk/Audio/armstrong.html Barbirolli Soc. http://www.st-and.demon.co.uk/JBSoc/JBSoc.html |
Non-linear Ear Distortion?
In article , Jim Lesurf
wrote: The papers I have on this are at work. If I remeber to do so, I'll note the main review paper reference I found and post it later on in case you are interested. The reference I had in mind is: Mechanics of the mammalian cochlea Robles and Ruggero Physiological Review Vol 81 Number 3 (July 2001) pp 1305 - 52 The above is an excellent review of this area with pages of references to more detailed papers on all sorts of related topics, including non-linear effects in hearing. Slainte, Jim -- Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Audio Misc http://www.st-and.demon.co.uk/AudioMisc/index.html Armstrong Audio http://www.st-and.demon.co.uk/Audio/armstrong.html Barbirolli Soc. http://www.st-and.demon.co.uk/JBSoc/JBSoc.html |
Non-linear Ear Distortion?
"Arny Krueger" wrote in message ...
(...) ie. Can you be bombarded with large SPLs of pure sinewaves at 20kHz and 24kHz and perceive 4kHz (F2-F1) and 16kHz (2F1-F2). You've got to pick frequencies where the ear actually responds... I'm not sure that it's been established that the tones must be ~20KHz, i.e., I don't know whether distortion products can conceivably occur if one (or more) of the tones are 20KHz. I've not found any research which looks at that (though it would be pretty simple to run a quick practical test to find this out),but I've not searched exhaustively. To obtain (some of) these distortion products does not require large SPLs. In fact, these ear-based nonlinearities have been used to carry tunes in (classical) music. Although these tones are a function of the way the ear initially amplifies tones, there's recent evidence that these products may be influenced by attention, i.e. 'higher order' processes can alter the ear's behaviour (doi: dx.doi.org/10.1017/S0048577201990109). Interesting. There's a nice review of this stuff he http://physrev.physiology.org/cgi/reprint/81/3/1305 (Robles & Rugger 01, Physiol Rev 81: 1305-1352. Steve. |
Non-linear Ear Distortion?
"םחכילטמ" wrote in message ... Hello, In addition to the Fletcher-Munson equal loudness curves describing our psycho-acoustic response, are there any curves to describe distortion in the ears? ie. Does each set of ears/brain have a second and third order intermodulation intercept point? ie. Can you be bombarded with large SPLs of pure sinewaves at 20kHz and 24kHz and perceive 4kHz (F2-F1) and 16kHz (2F1-F2). I'm sure it's vastly more complicated than this....? I seem to remember reading about a Korean(?) company experimenting with a public address system that generated a carrier around 20KHz plus an audio signal shifted up by 20KHz, the assumption being that the non-linearity of the ear would make it audible. The transducers were placed in a matrix several feet above head height, and because of beaming at these frequencies the sound(!) would appear generally from above. But the last I heard was that they were experimenting with a membrane above the listener to create additional non-linearity. Graham Holloway |
Non-linear Ear Distortion?
On Wed, 16 Jul 2003 16:34:34 +0100, "Graham Holloway"
wrote: I seem to remember reading about a Korean(?) company experimenting with a public address system that generated a carrier around 20KHz plus an audio signal shifted up by 20KHz, the assumption being that the non-linearity of the ear would make it audible. The transducers were placed in a matrix several feet above head height, and because of beaming at these frequencies the sound(!) would appear generally from above. But the last I heard was that they were experimenting with a membrane above the listener to create additional non-linearity. Or this: http://www.atcsd.com/tl_hss.html Kal |
Non-linear Ear Distortion?
"Kalman Rubinson" wrote in message
On Wed, 16 Jul 2003 16:34:34 +0100, "Graham Holloway" wrote: I seem to remember reading about a Korean(?) company experimenting with a public address system that generated a carrier around 20KHz plus an audio signal shifted up by 20KHz, the assumption being that the non-linearity of the ear would make it audible. The transducers were placed in a matrix several feet above head height, and because of beaming at these frequencies the sound(!) would appear generally from above. But the last I heard was that they were experimenting with a membrane above the listener to create additional non-linearity. Or this: http://www.atcsd.com/tl_hss.html Right, except AFAIK this one is based on the nonlinearity of air. That's a whole 'nuther thing with SPLs to match. |
Non-linear Ear Distortion?
The reference I had in mind is: Mechanics of the mammalian cochlea Robles and Ruggero Physiological Review Vol 81 Number 3 (July 2001) pp 1305 - 52 Thanks Jim, Steve G found a link for it: (great minds think alike!) "There's a nice review of this stuff he http://physrev.physiology.org/cgi/reprint/81/3/1305 (Robles & Rugger 01, Physiol Rev 81: 1305-1352." Am amazed at the work that's already been done in this area. |
Non-linear Ear Distortion?
In article , םחכילטמ
wrote: The reference I had in mind is: Mechanics of the mammalian cochlea Robles and Ruggero Physiological Review Vol 81 Number 3 (July 2001) pp 1305 - 52 Thanks Jim, Steve G found a link for it: (great minds think alike!) "There's a nice review of this stuff he http://physrev.physiology.org/cgi/reprint/81/3/1305 (Robles & Rugger 01, Physiol Rev 81: 1305-1352." Am amazed at the work that's already been done in this area. FWIW I *have* written an article on this topic for one of the audio mags. The above paper was one of the main sources I used. Snag is, although it was accepted for publication, the editor hasn't edited it down and published it yet! Slainte, Jim -- Electronics http://www.st-and.ac.uk/~www_pa/Scot...o/electron.htm Audio Misc http://www.st-and.demon.co.uk/AudioMisc/index.html Armstrong Audio http://www.st-and.demon.co.uk/Audio/armstrong.html Barbirolli Soc. http://www.st-and.demon.co.uk/JBSoc/JBSoc.html |
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