Brainwave-controlled robots can be an awesome tool in many things
https://controllingsociety.blogspot.com/
Every time we are facing the fascinating idea in computer technology. The thing is a biological microprocessor, what would be the revolution in computer technology. And in fact, the simplest way to create that kind of microprocessor is to connect our own brains to a computer by using the EEG-machine, what is connected to the decoder. That system would allow transforming our brainwaves to the form, what computer, and if we would have that equipment, we might control the robots like they would be our second body.
This would be one very good point for making new kind of robots, what looks like humans, and what can be controlled through the Internet and satellites even from the opposite side of the world. But this technology, what is connected to artificial intelligence and machine learning would allow the research the surfaces of the gas planets icy moons. The machine learning means that the robot is learning like a child.
The movement tracks of the robot can be recorded, and send to the distance by using radio waves and internet
The movement tracks what are necessary would be taught to the system by using virtual reality, and if we are thinking about the situation, that the machine must do something in the distance, where the signal travels even hours, would there be the simple solution for that. The operator can use a similar system, what travels on the distance on Earth, and then the movement tracks would send to the robots, what are operating in the distance.
But this kind of bioprocessors would not be effective in the space travel and probes, what is traveling in the edge of our solar system. The control signal travels hours to the giant gas planets and the controlling those robots, what is traveling on the surface of their icy moons. Those robots might actually the hybrid systems, where another part is like the Mars-car, what have successfully researched the surface of the red planet.
And the other part of the system might be a human-looking robot, what can collect samples from the tough places, and fix the damages of the car. The image recognition systems allow them to choose tools or other parts and take the interesting samples, and if those robots cannot solve some problems, they would send the message of that to the control room. Robots would not tired and that means that they can stay in the same position even days.
Skeleton-shaped robots can use the same tools as humans.
The human-shaped robot could use the same tools with humans, and those robots might have multiple systems, which guarantees the success of the mission. Those robots might actually look like little bit walking skeletons because there is no need to cover them by using some tissue-looking thing, and some persons have thought that could the medieval figure where Death is in the shape of skeleton actually the robot. That figure has been given inspiration for the creators of the futuristic "Terminator" robots, but the connection with the original images and robotics is the only speculation.
I don't know about that, but those paintings have inspired engineers to create the robots, what is looking like the skeleton. If we would think the situation, that we would send the probe to the moons like Europa and Titan, or somewhere farther away from Earth, that means that those missions must be a success.
In the cases where the probe would be destroyed during the travel, the thing what makes that loss very sad is that those probes cannot send every year, and if the mission has taken years, the destruction of the probe would be catastrophic. The system uses machine learning and artificial intelligence for creating the new movement tracks and tactics, how to survive in the situations, what the futuristic probe can face.
If there would be the problems with that system, the controllers of that robot can use virtual-reality to make new movement tracks, and in this situation, the laser scanner can make the 3D-image of the environment with a camera system, what uses two cameras like human eyes, and connecting the data, what the pressure sensors from the hands of the robot that robot can change the parts of the robot car or climb in the mountains.
https://controllingsociety.blogspot.com/
Every time we are facing the fascinating idea in computer technology. The thing is a biological microprocessor, what would be the revolution in computer technology. And in fact, the simplest way to create that kind of microprocessor is to connect our own brains to a computer by using the EEG-machine, what is connected to the decoder. That system would allow transforming our brainwaves to the form, what computer, and if we would have that equipment, we might control the robots like they would be our second body.
This would be one very good point for making new kind of robots, what looks like humans, and what can be controlled through the Internet and satellites even from the opposite side of the world. But this technology, what is connected to artificial intelligence and machine learning would allow the research the surfaces of the gas planets icy moons. The machine learning means that the robot is learning like a child.
The movement tracks of the robot can be recorded, and send to the distance by using radio waves and internet
The movement tracks what are necessary would be taught to the system by using virtual reality, and if we are thinking about the situation, that the machine must do something in the distance, where the signal travels even hours, would there be the simple solution for that. The operator can use a similar system, what travels on the distance on Earth, and then the movement tracks would send to the robots, what are operating in the distance.
But this kind of bioprocessors would not be effective in the space travel and probes, what is traveling in the edge of our solar system. The control signal travels hours to the giant gas planets and the controlling those robots, what is traveling on the surface of their icy moons. Those robots might actually the hybrid systems, where another part is like the Mars-car, what have successfully researched the surface of the red planet.
And the other part of the system might be a human-looking robot, what can collect samples from the tough places, and fix the damages of the car. The image recognition systems allow them to choose tools or other parts and take the interesting samples, and if those robots cannot solve some problems, they would send the message of that to the control room. Robots would not tired and that means that they can stay in the same position even days.
Skeleton-shaped robots can use the same tools as humans.
The human-shaped robot could use the same tools with humans, and those robots might have multiple systems, which guarantees the success of the mission. Those robots might actually look like little bit walking skeletons because there is no need to cover them by using some tissue-looking thing, and some persons have thought that could the medieval figure where Death is in the shape of skeleton actually the robot. That figure has been given inspiration for the creators of the futuristic "Terminator" robots, but the connection with the original images and robotics is the only speculation.
I don't know about that, but those paintings have inspired engineers to create the robots, what is looking like the skeleton. If we would think the situation, that we would send the probe to the moons like Europa and Titan, or somewhere farther away from Earth, that means that those missions must be a success.
In the cases where the probe would be destroyed during the travel, the thing what makes that loss very sad is that those probes cannot send every year, and if the mission has taken years, the destruction of the probe would be catastrophic. The system uses machine learning and artificial intelligence for creating the new movement tracks and tactics, how to survive in the situations, what the futuristic probe can face.
If there would be the problems with that system, the controllers of that robot can use virtual-reality to make new movement tracks, and in this situation, the laser scanner can make the 3D-image of the environment with a camera system, what uses two cameras like human eyes, and connecting the data, what the pressure sensors from the hands of the robot that robot can change the parts of the robot car or climb in the mountains.
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