The image I: "A 3D micro flier sits next to a common ant to show scale. Credit: Northwestern University"(ScitechDaily/Winged Microchip Is Smallest-Ever Human-Made Flying Structure – The Size of a Grain of Sand)
The smallest of all miniature flying systems can use for many things.
The technology what those flying microchips are using is quite simple. The flight of those nano-size helicopters is basing the opposite-rotating rotors used in Russian Kamov-helicopters. And the power source can be wireless radio waves or chemical or small nuclear batteries.
The radio waves-based wireless energy transmitting offers those helicopters almost unlimited operational time. In that case, there are no harmful chemicals needed and the systems are easier to produce. The production methods of those miniature helicopters are similar to microchips. And the system uses integrated antennas for power transmission.
The chemical batteries are giving limited operational time. And nuclear batteries are dangerous. If those batteries get in the wrong hands, somebody can make a hole in the protective core of that battery and release plutonium to nature.
The production technology of those miniature helicopters is similar to microchips. And they can produce large numbers very easily. Theoretically, the robot factory can create those very small aerial vehicles in the operational areas. If they can use the wireless electric transmission those robots can use them immediately when the Von Neumann or robot factory created them.
The main material of those miniature robot flyers can be silicon. In this case, the material seems plastic. And the thing is that the robot factory can use recycled materials. So they can turn plastic bags or sand into miniaturized flying machines.
And that makes them very multipurpose tools. The robot factory can have series of what it can use for making those robot bugs. And theoretically, if it uses artificial intelligence and retrieves robots that can be the quadcopters it can use garbage for taking parts for the robots. The system can look for mobile telephones that are in the garbage. And recycle the strategic parts like CCD chips. And connect them to new flying robots.
And then those robots will take them to the factory. In that highly automatized factory system removes the CCD system from the core and reuses those components in the new camera-equipped drones. The size of those robot factories is not necessarily big. It can be the size of the container. And it can have the ability to search raw materials independently.
The smallest helicopters in the world are the size of the grain of sand. And those systems have multiple roles in the world of civil and military. The sand-size microchip can take a position on the head of the bugs like an ant or bees. And slip in their nest for observing, what those bugs are doing. Those helicopters can also use to transport the bees or other social bugs away from the places.
Image II: "A close-up of a 3D micro flier, outfitted with a coil antenna and UV sensors. Credit: Northwestern University" (ScitechDaily/Winged Microchip Is Smallest-Ever Human-Made Flying Structure – The Size of a Grain of Sand)
Those systems can measure radiation they can smell poisons and pollution from the air. Or they can search for fire from the houses. The idea is that the miniature helicopters are equipped with infrared sensors and robot helicopters are programmed to fly to heat points. In the simplest models, the location detector system follows the position of the helicopters which are equipped with RFID chips.
And when those helicopters are starting to swarm, that means there is some kind of thermal source. Those robots can also equip with microphones CCD-cameras and they can research people or make the surveillance operations around the world. Those miniature helicopters can land on the microchip and send the data that travels in the wires of the chip to satellites and another side of the world.
Image III: Kamov Ka-25 "Hormone"
Transporting a bee swarm to another place can be made by taking the queen to another place. The miniature helicopters can send electric signals to the nervous system of that bug and make it move. The same technology can use for military purposes. If the queen of bees stabs somebody that means other bees also stab the victim. The nervous stimulation of the bees can also use for that thing.
Where the nest of bees risking the safety of the environment. In that case, the miniature drone is landing on the head of the queen. And then it would start to send the nervous stimulation by using the electric impulses. Otherways saying this robot is taking the bug under control and makes it move to another place.
And other bees are following their queen. The zoologists introduced that to transfer the swarm of bees to another place. If the bee swarm is poisoned there are no bees for pollinating flowers. And those poisons can cause health problems. So it's easier to transfer those bugs to a different place by taking the queen under control. When the queen is moving to another place other bees follow it. This behavior is making it possible to turn those bugs into biorobots. That can control by using microchips. And those miniature helicopters are suitable for that mission.
This type of system can use for military purposes. There are horrifying visions that swarms of bees are put to stab the people who are involving prohibited demonstrations. Originally military researchers introduced that idea for controlling hostage situations. But it can also use for controlling things like riots. The idea is that the behavior of the bees is turning to serve military purposes. When the queen is stabbing all other members of the swarm are also stabbing.
()https://scitechdaily.com/winged-microchip-is-smallest-ever-human-made-flying-structure-the-size-of-a-grain-of-sand/
Images I and II:https://scitechdaily.com/winged-microchip-is-smallest-ever-human-made-flying-structure-the-size-of-a-grain-of-sand/
Image III:https://en.wikipedia.org/wiki/Kamov_Ka-25
()https://visionsoftheaiandfuture.blogspot.com/
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