What if we would outsource the microchip and send the control code of the microcircuit from the ground station?

What if we would outsource the microchip and send the control code of the microcircuit from the ground station?

1) Control codes of the systems would not be delivered to the wrong hands.

The problem of the robots is that the controlling circuits of the machine can be damaged, or if the robot is in military actions, those controlling circuits can go in the hands of the enemy. And they can break the controlling codes of that system. Also if the microchips would somehow be damaged in the spacecraft astronauts and repairing robots must send to fix the problems and change the processors. 

So there has been introduced the one really interesting idea, and that is could the microchips of the electronic components replaced by using the radio receiver-transmitter, which would take the control codes from some other source. That means that the microchip, what is controlled the robot would stay away from the robot, and the control codes, what the microchip is normally transferred to the electric circuit would send to that circuit by using extremely thin radio waves.

2) Similar, outsourced systems can also use to control nanorobots

This kind of system can also be used in the nano-bugs, which are extremely small robots. If the microchip, what controls those systems can be replaced by an external version, that helps to keep the size of the small-size robot lower, and the energy to that robot can pump by using the high-power radio waves. So that kind of thing is extremely fascinating, and they would allow making smalled robots than ever before. 

So if we would want to hybridize bacteria and robots, which means that the bacteria can be remote-controlled that thing can make by benefiting the fibrin fibers, what bacteria use normally for movement. Both sides of the bacteria would implant small radio receivers, what is reacting to different radio frequencies. 

And the radio waves would cause that the electricity would be transfer to bacteria. Each of the radio receivers would be connected to the different groups of fibers. When some of the receivers are conducting the electricity to the cell would order the direction where the bacteria are turning. 

3) Silicone and springs, what is reacting to the magnet are in the main role of creating a soft-core artificial cell.

But there is also the fully synthetic version of this kind of solution. A little bit of silicone is equipped with springs, what can be pulled together. That means that the silicone can act like the bacteria, but the difference between this kind of thing is that the nanomachine is synthetic. So the immune system cannot destroy it. That small nanomachine can be equipped with RFID-chip, which allows researchers to locate it. 

And if there are different radio frequencies, what makes a different group of springs pulling together. That allows to remote control the machine, what can be used in medical purposes to close veins, what is taking nutrient to the tumor. But that control system can installed even in the drone, and that allows us to use it on the battlefield, where they can slip in the body of the enemy, and then close the blood veins to the brains.