R&D cycle in the drone ecosystem is faster than anyone believed. New and powerful microchips give flexibility. And the ability to run complex software. The complex software. It allows drones. To do complex things autonomously. The cloud-based system architecture is the thing. That allows drones. To share their calculation capacity and information over the entire drone swarm. This means that all drones can get the same information. The new drones can take commands. These are given. By using the spoken natural language.
And that makes it easier to give commands to drones. Those drones can recognize their targets from images. And the flexible architecture makes it possible. Those operators. They can show targets on the screen. Drones can navigate to the target using camera images. Intelligent inertial. Or signals from other drones. Those drones can have a brain-mimicking way. To solve problems. In the future, those drones could also use cloned neurons in their microchips.
Autonomous drone swarms can operate in a war zone. Or in the other planet’s atmosphere. They can search for people. And they can guide rescue teams. High-precision drones can build houses. But the same systems can also be used as ultra-advanced weapon systems. Drones can send information to the base. And when their battery runs empty. Those drones can attack enemies. The drone swarms can operate in the. Air or underwater. In some scenarios, places like the Kremlin can have drone defense. If there is a riot against people like Putin. They send those drones to eliminate that riot. And these types of visions make drones scary.
The camera system can use a system called DSMAC. Digital Scene-matching area correlation. The navigation system uses aerial photos. Taken about its route. Then the AI compares the images the camera sends. That is stored in the memory of those drones. When those images are similar, the drone is on the right route. The system can use the same camera for navigation and target recognition.
Advanced AI is the tool that makes drones. Avoid the defense. Or. Otherwise, the system allows drones to attack other drones. This makes those systems very flexible.
The DNA-based mass memories are excellent tools for drone control. Those memories are high-capacity, low-voltage tools that can be used as drone control. The DNA-controlled nanomachines can act as artificial neurons. Those systems can control all types of drones. From pocket-sized quadcopters. To full-size robot combat aircraft.
https://interestingengineering.com/military/drones-no-gps-ai-navigation
https://www.neuromorphiccore.ai/drones-that-listen-think-and-conserve-with-brain-like-precision/
https://scitechdaily.com/dna-meets-electronics-scientists-create-ultra-low-power-memory-breakthrough/
https://www.unikie.com/service/autonomous-drone-swarms/
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