The next tools for the AI environment are more effective than nobody expects.
AI is becoming a more dominant effect in all works that nobody predicted. The AI itself is a language model. That allows researchers to create new programs very fast. There are no limits to connecting language models with new entities.
And that means there are more and more applications. The reason for the fast-growing number of AI tools is that AI can generate complicated code faster than ever before. So new applications. And especially control applications for physical robots are easier to develop than ever before.
And the control applications are always very complicated to program. The AI can interconnect physical applications with virtual applications. The interactive CAD model which virtual engines and virtual microchips operate like physical machines.
Those virtual twins, or digital twins make test procedures faster than using physical models. So the AI can control complex environments and complex internal entireties. Those entireties can be virtual or physical. Or the AI can combine simulations with the physical environment.
And that allows us to simulate virtual prototypes in a real environment. The environment simulation requires wind speed, turbulence, and other kinds of details like mountains that can form rising jet flows. This kind of augmented reality makes it possible to create virtual buildings.
Or it can combine interactions between vehicles, buildings, and other kinds of tools. The system can simulate the echoes from vehicles. Or it can simulate a supersonic aircraft's air cone's effect on the ground. And buildings and other structures. The AI-based applications can also teach new work to robots in minutes.
The Mercedes-Benz corporation started to use new human-like robots at its manufacturing platforms. The human-looking robots are the ultimate tool, that can give brand new dimensions to the CAD/CAM architecture and for the "internet of things". Those humanoid robots can make anything that humans can. And they need only new programs and movement series for new products.
The robots can operate under the control of the central computer. Or they can make a networked entirety, and when one of those networked robots takes the new mission, it can scale that thing into the entire network. Those robots can also connect themselves to space stations and satellite computers.
Humanoid robots can make spacewalks along with humans. Later when those robots become more independent, they can also travel to our solar system to for search minerals and places for manned space stations.
So those robots can take their missions from the net. And the thing is that the same robots that work in car factories can make space stations at the orbital trajectories. The humanoid robots can also be the first tools that can travel to Jupiter's icy moons to test if those environments are safe for humans.
The humanoid robots are tools that can turn any aircraft into UCAVs. In that case, the humanoid robots can sit on the pilot's chair and make their mission automatically. The robot can connect its computer to the fighter's main computing unit. Or they can act as ground soldiers. Chancing programming can turn the gardner-robot into a car mechanic, pilot, infantry soldier, and surgeon.
https://www.freethink.com/robots-ai/apollo-robots
https://www.freethink.com/robots-ai/brief-history-of-ai
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