Fireflies can be the particles of the next-generation cyborg bug swarms.

Cyborg bugs or microchip-controlled bugs are a reality. Those things are normal insects that operate under the control of microchips. The cyborg insects are the next-generation tool for many things. The problem with mechanical drones is that their operational time is so short.

But the living bug can eat nutrients, and their neurons can interact with nano-technical microchips. Microchip-controlled bugs like cyborg fireflies can make a swarm. That is very flexible and hard to destroy. The interaction between neurons of those bugs and microchips is making it possible to benefit those fireflies' light organs in the communication of those cyborg insects.

The microchip will interact with the neurons of those insects, and it can be connected with the relay systems which can be helicopters, drones, or even satellites. If those microchips can control the flashes of the insects' light organs they can use optical communication at a longer distance.

The system can decode the electric impulses of those fireflies. Or the microchip can equip with nano-size optical instruments that see those flashes. The problem with nano-drones is the communication with the controller. The reason for that is that nano-size microchips cannot create powerful electric signals.

The microchip-neuron compilation is a powerful tool for the half-organic microsystems.

Living neurons can give electricity to nano-size microchips. Feeding those neurons is easier than creating low-power electricity that will not destroy those microchips. That technology makes it possible to create powerful computers that don't need very much power.

The data can transfer to neurons through those microchips. And then the decoder can transfer that data to computer screens. In some models, the neurons are between two layers of those extremely small microchips. But if those microchips are implanted in insects.

They can create an extremely flexible intelligent drone swarm. That cyborg bugs are offering highly mobile platforms for AI-controlled entireties.

The nanotechnical microchips can take their electricity from the nervous system of the insects. That thing will make it possible to create low-power electricity. That is needed for those microscopical systems. Living neurons are making it possible to create needed low-voltage electricity that will not jump over the switch.

Image 1: https://scitechdaily.com/physicists-unlock-secret-to-synchronization-from-flashing-fireflies-to-cheering-crowds/

Image 2: https://www.nextbigfuture.com/2012/01/darpa-hybrid-cyborg-insects.html

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