I think four extra arms would be better, with some sort of onboard AI to co-ordinate their movements. You'd need some sort of inhibitor chip to stop the AI in the arms taking over the mind of the wearer though.
This is cool, but at the same time the discussed applications are so boring. The most obvious and exciting application (to me, anyway) would be to use the extra limbs as wings. i.e. an exoskeleton wingsuit.
No need — regular hydrocarbons have a high enough specific energy to do the job.
The largest pterosaur, Quetzalcoatlus, had a wingspan of ~10 meters and an estimated mass of 200–250kg [1]. I don’t know how much power they could produce, but it can’t have been more than a few horsepower given they weighed less than a half a horse.
A 30cc petrol motor will easily output 2–3 horsepower, and weighs less than 10 kg. Combine it with wings from a hang glider (similar wingspan, weight ~30kg), and as long as the powertrain isn’t too heavy (compressor + pneumatic artificial muscles?), it seems possible to build something light enough to carry a human.
Yep, there was I under the impression that this was more of a marginal endeavour than it really is; I was probably thinking along the lines of human-powered aircraft. I'd imagine that a lot of safety problems and requirements for a very skilled pilot could be reduced in the future with computer control/brain-computer interfaces and exoskeletons.
I think it's exciting to first get mass production going with as many boring and mundane tasks as possible. Then those more relevant and interesting applications are easier to invent since the base population that can afford these is much larger.
I wonder how hard it would be for a human brain to adapt to controlling 2 extra limbs? This kind of tech coupled with something like Neuralink seems like an excellent field of study.
According to the recent article on an extra robotic thumb, people got used to it very quickly. And that one wasn't even controlled by neural link, but by sensors on the user's toes.
I'm not so sure. We're good at controlling things with lesser degrees of freedom than our bodies naturally possess. I am not sure wed be very good at controlling things with more dof unless it was very high level octopus arm type control (arm, get the red ball and drop it here)
I'm sure people will adapt, but probably not very quickly.
Of course, it depends on the level of proficiency you want to reach. But it's already hard enough for people to eg learn to play Tennis, or learn to play Tennis with their left hand, when they normally use they right hand.
i believe it would be quite difficult. if you actually look at the structure of the human brain (eg the homonculus model of the cortex) you will note that a very large portion of the brain is dedicated to just the hands/manual dexterity. Many of the current neural prosthetics seem to act by attempting to leverage the brain's use of already-existing neural pathways being used for other functions. Sort of a "turn on my microwave when i open my refrigerator"-type dependence. I think a good sign of truly independent supernumerary prosthetics would be if some users reported phantom limb sensations in their absence
The human ability to adapt and incorporate tools, objects and use them naturally to perform complex tasks is so impressive and interesting.
Driving, cars, flying airplanes (including sitting 10m+ off the ground in cockpit in a 747). Things like playing ice hockey, kite surfing etc. Highly complex activities (including interacting with several others and even plan ahead), often performed at speeds way beyond what a human can move about.
Finally, the party problem solved: one arm for holding your drink, one arm for holding a plate, and one or two arms to put some food from the plate into your mouth.
there was some old movie or show where an opponent had four arms. He just grabbed the two arms of the human with two arms then started pummeling his face with his other two arms.
Ha, I've always been saying I'd like to have 4 arms like Goro from Mortal Kombat.
I guess some people actually working in this field had similar ideas :D
Though tbh having those arms on an independent robot would be much more versatile.
Alternatively, they need to have their own support (so basically, an exoskeleton) because the human body is not up to the task of supporting all the extra weight.
