different people may hear the same sound differently...
This is quite interesting....
https://www.scientificamerican.com/podcast/episode/b28f6090-980c-4a4c-883e14005921bd91/#:~:text=Neurons%20in%20the%20brain%27s%20hearing,Cynthia%20Graber%20reports.
Our ears are highly attuned to sounds in the world around us. It’s not just the frequency of the sound itself. There are also subtle differences and shifts in loudness and pitch. That’s what tells us, for instance, whether that baby crying belongs to us and just where it’s located. But according to a recent study, what you and I hear may not sound the same.
Scientists at the University of Oxford are trying to understand how the ears and the brain work together. They fit ferrets with auditory implants, trained them to respond to sound, and then looked at the way their neurons reacted. It turns out that each ferret’s neurons in the auditory cortex responded to changes in gradual differences in sound but each ferret responded differently.
The researchers say this is applicable to humans. They say this means that our brains are wired to process sounds depending on how our ears deliver that sound. So if you suddenly heard the world through my ears, it might sound quite different. The scientists say this research could help in the quest to design better hearing aids and speech recognition systems
Our ears are highly attuned to sounds in the world around us. It’s not just the frequency of the sound itself. There are also subtle differences and shifts in loudness and pitch. That’s what tells us, for instance, whether that baby crying belongs to us and just where it’s located. But according to a recent study, what you and I hear may not sound the same.
Scientists at the University of Oxford are trying to understand how the ears and the brain work together. They fit ferrets with auditory implants, trained them to respond to sound, and then looked at the way their neurons reacted. It turns out that each ferret’s neurons in the auditory cortex responded to changes in gradual differences in sound but each ferret responded differently.
The researchers say this is applicable to humans. They say this means that our brains are wired to process sounds depending on how our ears deliver that sound. So if you suddenly heard the world through my ears, it might sound quite different. The scientists say this research could help in the quest to design better hearing aids and speech recognition systems."
—Cynthia Graber
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- 41 posts total
Whether we hear differently enough for it to make any significant difference is besides the point.
Audio equipment has only one task to perform, and that is to reproduce the signal that it's being fed as accurately as possible. At least as accurate enough to be beyond the limits of human hearing.
Whatever happens after that must always be a wholly subjective experience. A matter of taste if you like.
There's just no getting away from that. |
Hearing is the most personal of the senses: there is no way for a person to describe what he hears to any other person. Not even a deaf person can describe the absence of sound because it is impossible to simulate deafness, the vibrations in your throat get converted to sound so not even the most effective sound absorption will work. That is why it’s pointless to get into arguments with audiophiles and claim they can’t hear what you can't hear or you hear what they don’t hear. You have no way of knowing and never will. |
@gs5556 |
- 41 posts total