The remote-control dog
The NAVY-Seal dogs are one version of the biorobots. Those dogs are connected to the GPS which allows following their position. And the camera system with ultra- or infrasound loudspeakers makes it the commanders possible to give precise orders for those dogs. The commands can give by using the sound file. Those files can involve sounds that humans cannot make. And the dog is trained to follow those sound signals.
And the collar of those dogs can also install pistols. They can make their missions quite independently. And those dogs can control from another side of the Earth. If there is the possibility to give the orders by using satellite communication. That kind of system allows that the dog can operate without human assistance. When the mission is over. The helicopter can call that dog to it, and transport it back to base.
The mission packs of those dogs can give stimulation to the nervous system. That thing makes it possible to control those dogs more accurately than just the sound files can.
If those dogs are replaced by using wolf-dog hybrids. That would improve their ability to concentrate on the mission. They would not be interested in other dogs or wolves. That means the hybrid animals would be suitable for that kind of purpose.
The use of cloned cells makes it possible to connect living tissue with the robot body.
New technology is always interesting and same time frightening thing. People are afraid of new technological advantages like cloned organs. Cloning a single organ is possible by benefiting the cells and genomes of the patient. And that thing is opening new things in the medical and other things.
Today there is possible to make membranes of the eye and teeth in laboratories. But technology is advancing. We can make cloned tissues like muscle cells in cell cultures. This means that so-called "ethic meat" is possible to create. Ethic meat means that the meat that is sold on markets is made in cell cultures. But the same thing that allows making "ethic meat" allows making artificial muscles for robots.
In those systems, the computer is controlling the movements of the muscles. And the microchips that are put at both ends of the muscles would make them squeeze. But that system requires that artificial nerves are connected to those cells. This type of robot might look just like a human.
But in the skull of that type of biorobot is a microchip. That microchip or BCI (Brain-Computer Interface) stimulates the nervous system. That controls the movements and other things like speech. But there is also possible to create remote-controlled animals without any kind of EEG decoding. The microchips can implant in the neck of the body.
Where they are controlling the nerves and muscles of the body. And surgically installed robot eyes can transmit data to the control center. That is sending commands to the microchip. This kind of system needs only the knowledge of how to activate the movement nerves.
The dog that is commanded by artificial intelligence can be the primitive biorobots. This kind of system requires the agility-trained dog and the loudspeaker.
The "biorobots" means the biological organism that is controlled by artificial intelligence. The easiest way to make this thing is to train the dog for guarding the house. The most simple version of this system the burglary alarm starts to play the tape. That gives the dog order to neutralize the intruder.
But more complicated computer programs and interactive sensors can give the dog more precise orders. In the dog is the recognition tool like a microchip, which is located by using the movement detector. The recognition of the intruder bases on the thing that there is no access code with that object. The accuracy of the system depends on how accurate information it can get. Or of course, the surveillance cameras can observe the dog.
Then the sensor will detect the intruder and then the computer starts to give commands to the dog. Or the system would also follow the gestures. That means the person who has access to give commands must just make symptoms to air, and then point the finger to the target. And then the dog will start to protect the owners of the house. In this version, the system can use face recognition. And it can follow the marks of the people.
In the collars of the guarding dogs can be the remotely controlled loudspeakers. And the action cameras that can send data to controllers. But those collars can also have pistol-caliber weapons in their system pack. That kind of thing can be launched remotely controlled.
In the most complicated version of this system, the dog has an action camera in the collar. That camera transfers data to the central computer by using wireless systems. Then the system that is in the collar would start to give orders to the guarding dog.
The system can use artificial intelligence that combines the data that comes from every sensor. And the system can give the dog precise orders, how to close the intruder. The requirement for the success of that thing is that the dog is trained for following commands.
The human operators can give those commands as well as an automated system. And in the collar of those guarding dogs can have weapons like small-caliber pistols what the controller who can be human or the launching of those things can be made also automatically. Aiming for those weapons will happen by using the TV image on the computer screen or mobile device.
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