TAKE ADVANTAGE OF ARTIFICIAL INTELLGENCE IN WEAPONS SYSTEMS 

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With technological advancements day after day, experts and  researchers deepen in ideas that support the use of various sciences in linking them together to come up with a result that ensures that people benefit from every science and material surrounding them ,and in this scientific research in the first part , the idea of benefiting from artificial intelligence in the military fields will be addressed from the beginning with the smart electronic bullet, it carries in its heart a miniature programmed device with another device in the gun , so that bullet pursues the target according to any curve of its path until it is compromised and hits the neck mainly so that there is a chance for the survival of target ,and in the event that the target is wearing the protective vest , once the bullet enters the  protective jacket ,then the  protective jacket  will burn out due to the reaction of the protective jacket fibers with the components of the chemical bullet paint

Key words; Electronic bullet, Smart bullet, Target tracking, Programmed circuit

In the figure A located in gun 

In the device in the bullet gun that contains electronic and programmed circuits that operate as follows;

The target is identified and device A is directed to it, where an electronic circuit works to determine the features of the face of target and at the same time two other circuits work, one of which determines the width and height of the target to confirm the target information to be sniped, circuit 1 and 2 are non- physical components, but are programmed mechanisms.

The aim of the location of the bullet is to know the range of the engine of the bullet that the bullet must go through, these are Super Computer circuits that are highly sensitive to data processing and analysis

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After drawing a clear picture of the target by collecting all its information, Circuit 4 works to take picture of the target in order to save its information and data.

All information is sent to Circuit 5, which is placed in a database on digital disks and then sent electronically to the miniature bullet device.

In the device at the heart of the bullet

Circuit 1 receives all the target information from circuit 5 in the miniature gun device , then sends it electronically to circuit  2 to store and analyze the information and study it according to fuzzy logic using algorithms in order to give a sure and unhesitating reaction to the bullet engine , as the bullet engine chases the target according to the curvature of its path until to undermine it and as a minimum velocity of the bullet 100m/s  and  assuming that the target distance from the bullet is 3400m, the bullet will need 34s to reach the target and there will be an opportunity to escape during this period and with the speed of humans that cannot travel a long distance within a short time and assuming that the target traveled a distance of 30m , the bullet it will travel according to the curvature of its path in a time of 0,3 seconds and the target cannot escape the bullet within a period not exceeding one second

Glass fibers 5 to maintain the technique of working the miniature device in the bullet without being affected by heat, it is very accurate and light, ranging from 5 to 25 microns, does not burn and does not rust and is not very lightweight and will not affect the amount of its movement.

The bullet pursues the target and strikes his neck alone until he does not escape death, but when the target is wearing a protective jacket, the protective jacket will not protect him, but rather it will burn him due to the interaction of the jacket fibers with the components of the bullet paint.

The basis on which the protection strength of the bulletproof jacket relies is Kevlar fibers, which are characterized by high durability, anti-corrosion, fire and heat resistance, but have a weakness, which is that the compressive strength is very low 0.1 and its tensile strength, weakness, a bullet can be designed to produce a large pressure to break the Kevlar fibers, according to the following equation

P = a/m2

We find that the pressure is directly proportional to the acceleration of the bullet, which by its nature increases, and when there is a motor for the bullet, it will increase more, and the pressure is inversely proportional to the area, so the head of the bullet will be designed as the following figure

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To reduce the surface area on which the bullet will fall and reduce the shock wave which acts as warning to absorb the energy of bullet and concentrate more pressure to break the fibers and after the bullet penetrates the jacket and the chemical bullet plating reaction this will lead to ignition.

Kevlar is a polymer made of a long chain in which the chain is made of hundreds of smaller molecules called monomers

The reason for the Kevlar strength is the intermolecular forces of the hydrogen bonds and the strings aligned on each other of the fibers, and by studying its molecular components, we can manufacture a compound that the bullet is coated with, and besides the physical conditions of pressure and heat, this leads to the ignition of the protective jacket when entering the body of the bullet head breaks the Kevlar fibers and forms the compound of nitric acid esters after being treated in the laboratory with chemical compounds and upon reaction with cellulose , one of the components of the protective jacket, nitrocellulose produces a highly flammable substance.