Nanotechnology is one of the most powerful technologies in satellites.

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In the future, nanotechnology can be a dominating tool. For military and civil space programs. When we think about the recon satellites the biggest threat to them in the future is the low-orbiter anti-satellite system. Those systems can be missiles. Or they can be direct energy weapons like high-power airborne laser systems. 

The future systems might not be similar to what they are today. The nanotechnical systems would be the large group of smaller satellites that operate as an entirety. 

The next-generation tool for civil and military space technology. Could be scanning optical telescopes. 

Nanotechnology makes it possible to create satellites and other things that were impossible before. The telescopes that are more powerful than James Webb can use nanotechnology. The idea in those telescopes is that they are forming a linear telescope group. That telescope group is tied together in the wire. That wire is connected to the axle in the middle of the satellite. In those telescopes could be extremely long rotating wires that can rotate around.

Diagram 1

The scanning optical (Multi-mission) telescope

1) Optical telescope

2) Satellite and axle. There are communication systems in that part. 

Arrow= The rotational direction. 

In diagram 1 you might see the principle of that system. In the point of view of recon operations, we could say that those satellites could be the "Optically enhanced Rhyolites". Rhyolite satellites are the geostationary ELINT satellites. Those new satellites could have optical telescope sensors and active radar. 

The idea of the geostationary multi-mission recon satellites is that those systems can cover the same areas by using multiple sensors. When some important things are visible. Those satellites turn their telescopes to that point simply turning the mirror. And the same time the system can turn to use radar and passive ELINT sensors. 

So there is a large number of small telescopes. Connected to one satellite which is rotating them like a whip. That kind of satellite can have an extremely sharp system. And the size of the satellite can be very small. When that large telescope is needed the satellite can release those telescope groups. And when that large telescope is not needed the optical antenna can pull back in. 

Large-size telescopes can be extremely good tools for astronomical systems and civil and military recon satellites. The fact is that the large telescope that is farther than the moon can make many recon missions. The large size recon telescopes can be far away from the range of the low altitude ASAT systems. 

https://www.globalsecurity.org/space/systems/rhyolite.htm

https://phys.org/news/2022-01-nanosatellite-big-african-space-science.html

https://thoughtsaboutsuperpositions.blogspot.com/

Drone swarms, mathematics, and AI are the ultimate tools.

Mathematics is the universal language. There are certain laws and rules on how to solve calculations. The orders of the calculations like first come parenthesis, then comes brackets and after that comes the calculations in a certain order are made for making life easier. The thing is that mathematics does not affect the physical is not quite true. 

The thing is that when we are going to shop. And choose the merchandise would not require things like imaginary or complex numbers. But complex numbers are important for calculations that are meant for calculating the quantum states in qubits. The quantum states require complex and imaginary numbers. But in the natural world, there is no visible match for the complex numbers. 

The complex numbers can also use in the control algorithms. That is connecting the drones to one entirety. The vertical and horizontal points of the drones can introduce. As the form (z=(a+bi)+(-)(a=bi)) where the z=location of the drones in a 3D coordinate system. And the following numbers are the mutual locations of the drones. 

The t mathematics is an extremely important thing. If somebody wants to make the algorithms for artificial intelligence. The unique recognition tools are requiring complicated algorithms. 

And when the system is creating the ID number for the members of the drone swarms the system must be sure. That there are no two members of the entirety that have the same ID number. When artificial intelligence gives commands for the individual robots it requires the ID numbers. 

Those ID numbers or IP numbers are the things that tell the AI which member of the drones group has contact with the target. The drone swarms are acting as an entirety. And the drones can locate the target by using triangular measurements. Or of course, the robots can use the laser designators if they have that tool. 

Universal mathematics is the language. That is needed for controlling things like drone swarms. The drones are positioning themselves in the entirety. By calculating the angles where they are. And then the calculations are made. For making the system know the position of each member of the entirety. When the entirety is getting orders it makes decisions which members are starting the action. 

The hierarchical model of the drone swarm means. That every member of the swarm. Must not have artificial intelligence. There are lower-level robots that are only acting as remote-controlled tools. And the higher level, more complicated drones that are ordering the lower level automate to make their missions. 

In some versions, the aircraft with powerful computers are flying over the drone swarm. Each drone has an LED light that transmits the individual recognition code to the data handling aircraft. That allows the aircraft to point the orders for a certain drone. That aircraft can be manned. Or it can communicate with a central base by using satellite communication. 

The same system can operate straight by using satellites. And that thing can be a very effective tool in the next-generation military systems. So what if the James Webb telescope would turn to recon satellite. That system can be used to control also drone swarms in a low atmosphere. Drones can deliver from aircraft or even from satellites. The ability to locate drones from a great distance. By using optical tools can give them very high abilities. 

One of the visions to make the ultimate recon and target pointing systems is to make very high-power space telescopes. If there are six about the James Webb telescope size telescopes at the distant orbiter from the ground. That allows the system to locate and recognize every each missile launch or heat source on Earth in seconds. Very sensitive infrared telescopes can detect the heat of the bumblebees at a distance of almost half a million kilometers. That ability makes it possible to detect all interesting targets on Earth in seconds. 

The new camera is size as salt grain.

  

The new camera is size as salt grain.

Image 1:

The new camera is small as salt grain. And that is the great victory of nanotechnology. That kind of extremely small camera can give eyes to the nanomachines that can operate inside human veins. That kind of small-size camera can connect with other nanotechnologies like nanomachines and nano-size microchips. 

The ability to connect that kind of camera with nano-size submarines can make those systems extremely capable. The nano-cameras can make it possible to remove blocks from veins or destroy tumors and bacteria nests by using extreme accuracy. The nano-camera can connect with the nano-size microchips that are controlling cyborg bugs. In some visions, the remote-controlled army ants can remove sick tissue from the skin. 

Image 2:

The thing is that operators can also use this kind of system can also for military and intelligence operations. 

The remote-controlled bugs are also good tools for recon and other types of operations. Using the nano-camera operator can control that system accurately. And the thing that system can fly in the rooms by riding with some bug. Then that bug can put that miniature camera in a suitable place. The nano-camera can see everything that happens in the room. 

And also that nano-size microchips can communicate with larger computers by using relay stations. That means the system can outsource things like image-recognition tools. 

The biorobots can be the next-generation tools for the military. They can use to transfer microbes to the oil storage. Or things like remote-controlled mosquitos can infect people with malaria or dengue fever. Those new type of biological weapons is very hard to detect. The control chip that controls cyborg organisms could connect with a small injector that can turn also non-harmful things like grasshoppers into bioweapons. 

Things like soldier ants are dangerous even to humans. The remote control system can turn them to perfect assassinators. In some horror scenarios, that kind of ant can cut carotids. Or the Tse-Tse-flies that are infected with malaria can make to bite people. That means the nanotechnical systems are dangerous in the wrong hands. 

https://www.newscientist.com/article/2233645-cyborg-grasshoppers-have-been-engineered-to-sniff-out-explosives/

https://www.scientiststudy.com/2021/11/researchers-shrink-camera-to-size-of.html?m=1

https://www.theguardian.com/science/2013/feb/17/race-to-create-insect-cyborgs

Image 1: https://www.scientiststudy.com/2021/11/researchers-shrink-camera-to-size-of.html?m=1

Image 2: https://www.newscientist.com/article/2233645-cyborg-grasshoppers-have-been-engineered-to-sniff-out-explosives/

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