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Simulations are making the R&D process cheaper.





Mixed reality is an excellent tool for making simulations. 


There are many versions of the virtual worlds. Some of them have no touch with the real world at all. Those virtual worlds are products of imagination. Some other virtual worlds can be so-called mixed reality worlds. 

Things like computer games can use to research and develop tactics. The gamers are playing things like war simulations. And then the AI selects the most successful ways how to make some things. The war simulations are a good example of how to use virtual worlds and virtual reality in R&D work. 

Those mixed-reality worlds can be spaces that are scanned by using lasers. The term "mixed reality" means that the real-world and virtual worlds are mixed. The mixed reality can use to control remote-controlled robots from long distances. The things that robots see and hear are transmitted to the controller's virtual reality set. 

The VR systems can also use to control hypersonic aircraft. The problem with those extremely fast aircraft is the pressure that impacts the aircraft's nose. If the nose of the aircraft can make by using the same material and form the same layer that makes the aircraft more sustainable. So the camera systems are transmitting data to the pilot or remote controller that uses the VR systems to get information about the environment. 

The mixed reality systems can contain many parameters. They can have the cell cultures in the laboratory or even in the nuclear reactor hall. Those cells can be packed in the boxes where the walls are made of the material that is used in protective suits. Then system observes how long those cells are living under radioactive radiation. And when an operator like a fireman operates in some harmless space the system tells when that person got too much radiation by using data that is collected from those cell cultures. 

But the thing is that also robots can wear VR sets. That thing makes it possible. That robot can practice how to operate in virtual areas. So the robot can operate in virtual space. The operators can make the labyrinth by using wires and paper. And the operator can see the scanned corridors. 

The use of virtual spaces makes research of robots cheaper. And those robots can practice operating in areas where it's hard to get access. The robot can get scanned images about things like nuclear power plants. So the robot can practice how to move in that place without being there physically. 

The fact is this in this type of mixed reality simulation where the robot is following the road that is marked by using wires and board elements that can move to different places are easy to build. And they are also easy to remove. That kind of mixed reality training site allows that robots must not take anywhere. So making the research is cheaper because the research team can be in their hall. And that thing makes R&D work easier. 


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