The "zombie fly" (MAV (Micro Air Vehicles))

The "zombie fly" (MAV (Micro Air Vehicles))

MAV:s or micro air vehicles have given the idea that the fly or some other bug can transform into a zombie by implanting in its body with a microchip, what would be connected to the muscle cells by using extremely thin electric wires. That thing allows to use the bug as the robot, what can operate in the surveillance missions. Or those tiny robots can inject deadly chemicals in the targeted person's bodies. The ricin would cause death in very small doses, and that kind of systems can use that kind of methods in the assassination missions.

The idea to implant the bugs with microchips have created an idea to create the carrier vehicle, what can use with the surveillance systems. An idea of this system is to create a vanishing robot, which would not leave a trace is in some area. The bug-shaped robot what is equipped with the enzyme can bring the surveillance equipment in the room and after that, it can vanish.

That kind of thing might look like the bug or something like that, and some engineers have got an idea that they can put the surveillance equipment in the real fly, what is killed by chemical, and after that surveillance equipment would be connected to the muscles of the fly, and then that thing would fly inside the house. Then the surveillance microchip would release the enzyme, and then the core would vanish, and the microchip can start to operate in the room.

The thing is that those robots are made by using the bugs, what are dangerous for a human because they would carry bacteria, what are causing symptoms. And this kind of devices can operate unseen in every place, where they are needed. The use of the real fly in the structure of that robot is, of course, a little bit strange. But when we are thinking about the nanorobots or MAV (Micro Air Vehicles) those robots can have the shape of any bug in the world. The mosquitos are not only forms, what those machines can take.

But if the microchip can be connected to the muscles of a real fly, that thing can revolutionize the production of those miniature aerial vehicles. The operating time of those vehicles would not be long unless the muscle cells of that bug would not get enough nutrient. The thing is that this kind of technology allows those systems to operate a long time, and that would make the "zombie bugs" true.

The neurons of the worm are transferred to a Lego robot

The neurons of the worm are transferred to a Lego robot

The scientists have transferred the nerve system of the primitive worm to the Lego robot, and this thing is one of the biggest advantages in the history of robotics. The thing what makes this kind of operations difficult is how to feed the neurons in the system, and the rest of the communication between neurons and computer happens by using the EEG-system.

Maybe the Lego-robot would seem like a very clumsy thing, but it would be the first cyborgs in history. And that research would serve the development of the more advanced and sophisticated things. Making the first prototypes is always difficult, and the first prototypes are not always confessing even their producers.

But this kind of transplant would give new ideas for the persons, who makes robots. And one thing is to make the same thing to the flying drone, but at this time there would be a more complicated nervous system in the flying robot.  There will be the question, What if neurons of the fly would transfer to drone? That thing would give the drone limited ability to think, and that thing would allow creating the next generation small-size drones.

Those miniature bugs need the brains, and the brains of the fly would be suitable. And the thing is that the flying drone would carry the tank type drone to the operation area, and the tank would equip with the neurons of the ant, which allows it to operate independently. Those systems can be used to locate persons or explosives in the houses.

And in the wildest scenarios, the small attack drones or Micro-UAV:s or MAVs  (Miniature Aerial Vehicles)can equip with the neurons of the mosquitoes. In those maybe the tinderbox-size robots can also install the sensors of the mosquito, which allows them to find the targeted person independently. The micro-UAV:s can also slip in the ammo-dumps and explode in that storage, what will cause terrible damages.

https://www.sciencealert.com/scientists-put-worm-brain-in-lego-robot-openworm-connectome

https://www.youtube.com/watch?v=_5YkQ9w3PJ4&t=106s

MAV:s (Miniature Aerial Vehicles)

Kimmo Huosionmaa

MAV:s (Miniature Aerial Vehicles) are the most capable vehicles in the battlefield and other danger zones like in the areas of nuclear fallout. Those simple but large number of aerial vehicles can be very capable in the many missions. Of course MAV:s can also have wheels below them or they can walk with feet, what looks like the feet of the bugs, and that capacity would allow them to slip in from the small holes in the wall and ventilation tubes.

The computer system of those drones would calculate the certain point of the rotating propeller of the ventilation, and then slip in between the wings of the propeller. Those MAV:s can operate autonomously if they would connect their computers together by using WLAN or BlueTooth, and they can get very much calculating power for their operations. The MAV:s can have numerous shapes, and they can look like pencils, pastilles, tinderboxes, mobile telephones, and microchips. In fact, they might look like some dropped candy, and the agent would drop it from the pocket.

The MAV can be controlled from another side from the Earth, and this is, why it is very useful for spy missions. The MAV:s can be installed on the layer of the microcircuit, and they might slip in the military bases or some highly secured areas as playing the part of the microcircuit. Then they would be released from the layer, and they can fly across the enemy or opposite side base.

Those systems might have miniaturized inertial navigation, which allows them to operate in the EMP-protected spaces, and if they would not get the satellite connection, they can fly back to the point, where the satellite's radio signal is visible and send their data. Those systems might be extremely lethal if they are used in the assassination missions.

If those systems are equipped with explosives or nerve-gas, they can make serious damages to command centers. In some scenario, those MAV:s are equipped with tanks of acid, what they can deliver to the microcircuits. Or they can have things like miniaturized FAE bombs. In this scenario, those vehicles can be equipped with tanks, what is filled with the same gas, what is used in cigarette lighters, and that thing can be used to create miniaturized aerosol explosive.

If those drones would operate only in the reconnaissance mission, in the EMP-protected areas they can use inertial navigation or miniaturized gyroscopes for navigating themselves to the area, where they can deliver their data to the satellites.  After delivering their information, that is stored in flash-memories those tiny robots can go back inside the space, and continue to collect the data.

MAV:s can get their electricity from the loading point, what might be in the place, where they have been carried inside, but they might also be covered by silicone layer, what will make electricity straight from the light. The small size robots like MAV:s can also be equipped with a similar system, what is used in the self-loading watches. So the operator must only shake the MAV, and it would get the electricity, just like some kinetic motion loadable wristwatch.

They might have also many other energy sources, and those systems can get their electricity from high-power radio waves, or they might use fuel cells to operate. In this case in the operation area would deliver the hydrocarbon bottles what are filled with spree, and those MAV:s can fill the tanks by using alcohol as fuel. The plutonium batteries, what is used in pacemakers would be very interesting, but the problem is, that those small-sized RTG:s can be used to produce dirty nuclear weapons or pollution bombs, and that's why this kind of power source is not very useful.

The MAV:s can be delivered to the operation areas from aircraft, artillery shells or they can be delivered from satellites and carried in the pockets of the agents. They can communicate with headquarters by using modified GPS-systems, which can also be used for locating this thing.  Those MAV:s or MAV swarms can be equipped with sophisticated sensors. Even if one MAV can use one sensor type, the swarm can have different types of MAV:s. Against those MAVs can be operated by using high power radio signal, which denies them to communicate together. And the similar ECM-systems, what is used for jamming the radars can disturb the communication between those robots.

In those cases, the drones must be re-synchronize by setting a new channel for their radio transmitters that they can re-connect together. They should use self-adjusting radios for communication. In this system, one of those drones would send the signal, what makes the other adjust their WLAN systems to another channel if the signal would be weak.  Also, EMP-weapons like microwaves and high power radio bursts can be effective against drone swarms, and the last ones have no effect against humans.

In the wildest dreams NASA would send the swarm of MAV:s to search the atmosphere and surface of the other particles in the solar system. A large number of the RTG-powered RPV:s can be delivered in the atmosphere of Titan or some other planet or moon. They can search for the large areas of the planet or moon, and because there is a large number of independent robots in the atmosphere of the other planet, the loss of one of those robots would not risk entire mission.

https://www.youtube.com/watch?v=_5YkQ9w3PJ4