If your network goes down, smart opponents will do their best to shut it down, and you will run into trouble. However, large old school platforms also rely on communications that are not affected by cell phone jammer-early warning aircraft that cannot share information with friendly fighter jets are largely useless-and are more vulnerable to destruction. This is because weak signals are more susceptible to interference than strong signals, and radio signals reduce power exponentially with distance: the coverage area is doubled and the transmission power is only a quarter. If you expand the range four times, it drops to one sixteenth. Therefore, it is much easier to relay signals from node to node in short hops than to send signals directly over long distances. It means a lot of little things
Faist said: “In general, when you are close to [near], you have a better chance of burning the exit and actually solving the problem of traffic congestion.” “When you reach a longer trunk, such as back to the command node, you Will be more vulnerable to attack.”
How to minimize the amount required for long-distance transfers? You need every node-drone, manned vehicle or soldier-to be able to work as autonomously as possible. Instead of relying on constant high bandwidth and low-latency transmission to remote operators, analysts or commanders, it is better to package each node as its own built-in artificial intelligence.
“Suppose we can have a UAS system with full-rate video, the video bandwidth is through the satellite communication [satellite communication] uplink, and it is the downlink to the people who operate it, Faist said. “The paradigm must change . “