The image above is an illustration.
In the ultimate version of the synthetic reality, the impulses. Which used to make that effect will be driven to the brain through the cortex. That thing requires that the system can generate synthetic memories. The person cannot make difference between those synthetic memories and real memories. That thing can make it possible to prepare people for ultimate situations. And that thing can also make a revolution in the education area. Also, the entertainment industry might be interesting in that kind of thing.
The term "synthetic reality" means the ultimate version of Virtual Reality. We can make the virtual spacewalk in synthetic space. Which is the combination of the hovering systems and VR glasses. Those airflow-based hovering systems are used in an amusement parks.
The most realistic version of the synthetic reality can be simulated space travel. That ultimate simulation happens in the underwater tank. Where astronauts normally practice. The lift-off can make by using the centrifuge. And then the person can operate under underwater conditions. That person might have VR systems.
That kind of experience might be the "poor man" space flight. The person who uses synthetic reality can use the piezo-electric plates inside the suit that gives also the feel of sense. That type of suit would be an enhanced version of the VR gloves and it can cover the entire body. This kind of thing can make it possible to train people for the ultimate situations. But it can also use to train the robots for complicated missions.
The synthetic reality is the thing that makes many things that are risky business safe. The synthetic reality makes it possible that a person can make a parachute jump to Jupiter's red spot. The imagination is limit what a person can do in that virtual environment.
The synthetic reality can use to train people like surgeons for their missions. The mixed reality means that the person who uses VR technology controls some kind of machine by using those systems. The mixed reality makes it possible that the person who controls human-looking robots can see, hear and feel everything that those robots are touching hear and see.
The robot might have cameras at the places of eyes. And it has microphones in the ears. Also, the pressure detectors make it possible for the robot can send the information of its touch to the operator. The operator controls the robot remotely by using the data suite and VR headset. The system can detect the position of the hand or head.
And then, it orders the robot to turn its hand and head to a certain position. The system can use the WEB camera and data gloves for making those movements. But the same system that is used for holo-portation can use to control the robot. For interactive holo-portation, the person requires a quadcopter that is equipped with a hologram projector. The operator can use the drone's camera, microphone, and loudspeaker for communication. And that drone can have robot manipulators.
The operator would not need any special suits. A combination of laser scanners and cameras can make it possible that the robot can follow the movements of the operator who stands on the running running-belt. That running belt would be the foot-operating joystick that is making the robot move forward or backward. The person can use VR glasses and VR gloves.
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