Cognitive systems and sharing information: New artificial intelligence and expert systems in battlefields and other mission-critical work

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Kimmo Huosionmaa

Pentagon is very interested to make cognitive and network-based command systems. Cognitive systems mean systems. that are learning from their mistakes, and then develop the new way to operate, in the case that they fail. This means that this kind of systems needs every information, that it can be collected, and then it would make decisions about the actions.  Those systems might not send same parts of the organization to the similar mission if they fail one of them. Cognitive systems make records for actions, what the system does, and if the system operates in the military mission, it would make new tactics for military aircraft or tanks and changing the flight altitude in attack is one thing, what can be changed, if the enemy is using lightweight anti-aircraft missiles.


The term "cognitive system" means actually hybrid systems, what are the combination of humans and supporting computer systems, what is operating as the networks. This means that any operating particle in this system would get the information straight from the sensors of another particle. And also those actors would share the information, that their sensors collect with other particles. This might help the commanders to make decisions in the middle of the critical situation, where succeed of the missions.


And in complicated situations, is time only for the right commands, and only the right commands come immediately, and those situations could be war or some special cases like the nuclear power plant accident. Those situations can happen in the seconds, and if those cases would the commanders of the situation would give wrong commands, could the result be devastating. And if the commander doesn't have the right information about the situation in the reactor and cooling system, would the nuclear power plant explode like in Chernobyl, and if the military commander would not have the right information about the situation.


That would cause terrible losses, and this is the reason, why the battlefield is full of sensors, and also people stress level and other body functions would be controlled by biosensors and action cameras, what would send the data to the headquarters. This data allows the commander make the decision of the actions. And in the combat situation the leaders of different battlegroups, like pilots, tankmen and infantry would get the information of their action cameras and other sensors to their screens.


This would be the very big advantage in the strike teams, what operates in the missions, where the situation would transform in seconds. In modern warfare, the strike force is the combination of aircraft,  ground vehicles, and infantrymen, and this makes the commanding of this system very difficult because the situations would change in seconds. And if the air strike is made too close to the ground crew, would it cause own casualties. In this case, the commander must make decisions in the seconds. And also the service for those troops would come at the right time.


Because if the combat crew is lost their ammunition,  the force would lose the combat, and that's why those systems would follow the use of ammunition and other equipment because those materials must be ordered in the combat area, and those packages could be dropped to own troops by using the parachutes. But at the same time, would that ammunition deny getting in the enemy hands, in the case that the wind blows those parachutes to another side of the front. And in those cases, the ammunition would equip with GPS-detonators, what would explode if the wrong positions.


The packages of the ammunition can be equipped with fingerprint detectors, what allows only authorized persons to open those boxes. That system can be installed in the gloves of military men, and it can also connect to the weapons, what might send the message if they are in the hands of unauthorized personnel. Those smart or computerized gloves, what are equipped with microchips would be used RFID (Radio Frequency ID) -sensor-transmitters, what would communicate with weapons and other equipment, and those smart gloves can detect if the right person uses them. Those GPS- and the fingerprint detector equipped weapons would send that information to the command center, and then the airplanes would come to destroy those weapons by bomb strikes.

Sources:

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

https://www.quora.com/What-is-the-difference-between-an-expert-system-and-artificial-intelligence

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https://sites.google.com/view/artificialexpertsystems/etusivu

Robot bugs are the advantage for many things, and they can revolutionize the entire science.

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Kimmo Huosionmaa

The robot bugs or MAV.s (Miniature Aerial (Autonomic) Vehicle)  are the most revolutionary air devices what are ever created. Those tiny little flying robots can manufacture large numbers in automatized factories even by using garbage as the production material, and this kind of manufacturing technology will give the change to produce those robots even in the operational area. The robot factories are not bigger than the containers of the trucks. And they are very easy to transport, and they will use sophisticated 3D printing and laser base cutting methods, and only thing what is needed is the production material, what is used when those little robots are made. Those tiny robots are capable to survey extremely large areas, and they can deliver from the airplanes and satellites.


The use of those instruments based on the swarms, and that's why those robot bug swarms  can equip with so various sensors, and even if one particle of the swarm of those robots does have only one sensor, there is maybe even thousands of those things, and the entire mass of them gives change to make very good scale observations of some area. The nanotechnological bugs are the very potential opportunity, when human been creates space probes, what mission targets are somewhere near Jupiter or Saturn. In this scenario, the space probe launches thousands of nanotechnological fly sized nanorobots to those gas giant's atmosphere and their moons. Those little robots might be inside the ice core, what allows them to fly in the target planet’s atmosphere.


The ice core will protect them from burning, and then the melting ice will release those drones to the planet atmosphere. In some scenarios, those nano bugs will put inside little iron or lead core, and then those little robots will put inside the Earth to investigate the liquid basalt, and those drones can communicate with the surface platforms with SONAR-systems, what are modified as the modems. Those drones can sink in the near of the nucleus of the Earth. In this scenario, the lead will protect those probes from the extreme heat of the melting magma, and this ball has been covered with chromium against massive pressure.


Those drones can send the new information to the Earth inner core. And they can drop inside the craters of the volcanoes. The shape of the ball protects them against massive pressure, and they might look like bearings hard balls. Those miniature probes can deliver inside volcanoes to investigate the behavior of those devastating things. And of course, they can use to observe the things like tornadoes, and in this case, the container, what involves that equipment will just put in the front of the tornado, and then the air turbulence will suck those things up the atmosphere, and the scientists can observe the micro-turbulence of the tornado. This might help to create things, what can decrease the wind speed of that turbulence.

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