It'll be interesting how this will look and operate like in the future once they figure out a way to let you move your arm while not shooting. Would it be controlled by a computer or would the person using it need to set it themselves?
The speed of which we are figuring out how to interpret signals from the brain for translation to computer interfaces is incredible, IMO, right now. I would imagine at some point in the future this would just naturally work when the signals are interpreted at the time you aim the weapon. Thinking of a MIT Technology Review article I read a while ago, I feel brain-computer interfaces will be the primary way we interact with software and machines in the not too distant future.
It'll be interesting how this will look and operate like in the future once they figure out a way to let you move your arm while not shooting. Would it be controlled by a computer or would the person using it need to set it themselves?
The speed of which we are figuring out how to interpret signals from the brain for translation to computer interfaces is incredible, IMO, right now. I would imagine at some point in the future this would just naturally work when the signals are interpreted at the time you aim the weapon. Thinking of a MIT Technology Review article I read a while ago, I feel brain-computer interfaces will be the primary way we interact with software and machines in the not too distant future.
It is probably going to be some kind of adaptive control. Similar toto steerinfsteering assist.
Will it work along the same lines as professional camera stabilisation mounts / rigs? Because they're pretty cool!
Your comment just reminded me of the heavy gunners' rigs from the Aliens movie.