AI-controlled drone swarms are entering battlefields.

   AI-controlled drone swarms are entering battlefields. 

The next step in drone technology is the development of AI-controlled drone swarms that utilize a LEGO-based system architecture. That cloud-based modular technology offers them flexibility and a multi-mission ability. Those drones can search enemy targets, support fire control, and make kamikaze attacks.  They can carry various sensors. Like Geiger meters, gas detectors, microphones, and other systems. 

That means when those systems require more calculating capacity, they unite their processors' capacity to work as a cloud-based morphing neural network. When the solution is made. Those drones, or their computers, can be separated, and then those systems, or each drone, can operate independently or as part of the entirety. 

Researchers took this idea. From a hypothetical alien model, where aliens can be like insects. When those insect-aliens require intelligence. Those things turn together. And then they share missions with each other. 

That idea is transformed into the drone swarms. Those drone swarms can call other swarms to solve complex problems, and then they share their missions or roles with the drones that participate in that swarm. Those drones can operate as one entity. Some drones can attack air defense. In that case, even small drones can be a more dangerous tool than anyone expected. They can hunt enemy commanders from the streets. The drone can slip into buildings through windows or ventilation. And even through sewer systems. If they are able to operate underwater. 

A large drone swarm can create a layer over the battlefield. Those drones can interconnect their sensors, which can transmit enemy moves to the commanders. Drones can also attack targets. That they recognize. The system uses images stored in the drone’s memory. 

One drone can drill a hole into the wall using explosives, and other drones can drive themselves into that hole. The drone can wait until its AI recognizes the target, and then attack it. The drone swarm can land on the roofs of trains. And then make their attacks. Large-sized cruise missiles or unmanned boats can carry drone swarms to target areas. Those drones can perform those missions without communicating with the command center. That makes them immune to normal jammers. 

The EMP system uses  high enough power EM impulses that it can destroy physical electronics. It can also destroy AI-controlled drones. The drone swarm can be released to the operational area just before manned aircraft comes. Drones can search for anti-aircraft artillery,  missiles, radar systems, and radio transmitters. They can attack ammunition storage. 

They can also make a radar and IR shield between aircrafts and ground-based systems. In those cases, small drones can search ground-based systems. And attack them. They can also disturb defense. Using jammer systems, aluminium bags, or IR lights that cover stealth planes behind them. Drone swarms can also close airfields, and they can fly into the aircraft’s jet engines. If drone swarms hover above runways, they can deny aircraft takeoff and landing. The small damage to the aircraft’s window or structure destroys the stealth-fighter’s stealth capacity. The drone swarm can communicate with aircraft. And stratospheric and orbital  satellites using laser systems. And those systems can also deliver those drones against the targets. 

https://www.msn.com/en-us/lifestyle/shopping/ai-powered-drone-swarms-have-now-entered-the-battlefield/ar-AA1LHwJg