reports a method for sensing that uses electrodes and microphones to measure vibrations and other stimuli. How does that fit into the picture of electronic skins?
One of the many challenges is being able to effectively interpret what it is that an artificial skin is sensing. In general, that can be challenging, especially if you think about how complex the types of sensations are that we receive from our own skin. So things like different gestures and different distributions of pressure are all integrated together to give us the perception of what it is we're feeling.
They're able to then show that they're able to measure that, which is cool because then it lets them do things like tell if you're patting or tickling or are you moving your fingers in a unique way, and essentially track that movement across the artificial skin. To me, that's exciting because it opens up some possibilities in being able to more finely detect and understand what it is that this artificial skin is experiencing. That will be useful for robots and prosthetic limbs.
They obviously behave very differently and respond to different things, but the idea here is that we're starting to explore ways these artificial skins can extract more information and capture more information about what's being touched. It seems that there's a lot of inspiration being drawn from these biological receptors that we see naturally occurring in human skin.
Pity nothing can be done for humans
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