Primitive animals like insects can use for modeling new types of data handling tools for small-size robots.

  

 Primitive animals like insects can use for modeling new types of data handling tools for small-size robots. 

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Why scientists are interested in how the fly is navigating in 3D space? Primitive animals make many things by using a couple of neurons. And that process can copy to the computers which are used to navigate things like drones. The fact is that also things like flies and butterflies are migrating. And that ability can copy to things like drones. The ability to understand the operands of the neurons makes it possible to make more autonomic and more independent robots. The problem with computers is that the things like butterflies can make many things that computers are making. 

But the problem is that butterflies or flies are needed less space than computers. So the system that some monarch butterflies are using in their lifetime is more compact than some supercomputers. If we want to make a long-range drone that can make the same things with monarch butterflies it requires outsourced computers. Theoretically is quite easy to make a robot butterfly that has an operation range even thousands of kilometers. 

Daytime that robot can use miniaturized solar panels- And night time it can use miniaturized fuel cells which are using ethanol or methanol as the fuel. But the problem is that this type of robot needs outsourced computers. So the thing is that the butterflies might have fewer neurons than in some supercomputer has microchips. But the butterfly makes more things with its neurons. 

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Modern microchips can turn any neuron into a biocomputer. 

There is the possibility to turn the brains of the bugs into the biological computer. The system requires "only" that the similar microchips that are used to control the actions of bacteria will install in the neurons of those bugs. 

The data that is wanted to process in those neurons can be input to them by using those microchips. That kind of system can use to turn living bugs into zombies or cyborgs that can be remote controlled. Also, that kind of system can use to create more powerful data handling units. 

The computer has used lights to control cyborg bacteria. Similar technology could use to transmit data to neurons. But new nanotechnical microchips are more powerful tools. And they can transmit data to neurons benefiting magnetite crystals in the neurons. 

Or those microchips are interacting with axons. They can send a nano-size electric wire to the axon and transmit data in there by using electric impulses. 

https://www.futurity.org/cyborg-bacteria-cybergenetics-1275212/

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Researchers can use knowledge of how the nervous system of insects is working to create more economical and powerful computers. 

But the times are changing. There is the possibility to implant nano-technical microchips in the bug's nervous system. Those systems can give orders to them. And then, they can store the nervous signals what those bugs are creating. After that, the bigger drone can call those bugs to it and it can download the memory of those microchips. The ability to encode and decode the EEG of the bugs is one of the amazing visions in the world. That thing makes it possible to use those things as biological surveillance systems. 

The thing is that making hybrid computers where living neurons are connected with microchips is one of the most fascinating ideas in computer science.

The computers that are connected with living neurons are the most powerful tools in history. If we want to create a system that uses fuzzy logic use of living neurons is the best opportunity. The problem is that the abilities of that kind of hybrid computer are unknown. The thing that makes regular computers safe is simple. Operators can select and download controlled data to it. 

If we are connecting computers to living neurons. We are creating a cyborg. A cybernetical organism means that the system might have consciousness and will like all other creatures. This kind of system has also the ability to defend itself. How the system interacts with people is depending what kind of tools it has. And the second thing is that the system must know how to use those tools. 

Living neurons are the thing that is giving so-called wild card ability for computers. Genomes are controlling the behavior of the species. And if those neurons are taken from the insects are put in the combat drones. That drone can believe that it's the monarch butterfly. So before that kind of system is put in use neurons must be cleaned. 

That means the heritable memories and fears must remove from their DNA. Researchers must make this type of thing. Before we can start to make the hybrid microchips there is an organic part. That connected to the regular microchips. The regular microchips needed to act as the port between neurons and quantum systems. The problem with quantum computers is that they are large-size systems. 

https://scitechdaily.com/navigation-neuroscience-how-a-flys-brain-calculates-its-position-in-space/

https://thenextweb.com/news/scientists-created-biological-quantum-circuit-grisly-experiment-tardigrades

https://en.wikipedia.org/wiki/Monarch_butterfly

Image 1:)https://scitechdaily.com/navigation-neuroscience-how-a-flys-brain-calculates-its-position-in-space/

Image 2:) https://en.wikipedia.org/wiki/Monarch_butterfly

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