The epidemics and artificial intelligence
How artificial intelligence can help researchers to map and resist epidemics? The main benefit of artificial intelligence is that it handles great entirety, and it can compare the databases very carefully. In this kind of mission, artificial intelligence doesn't make mistakes, and the thing is that it can find things that are connecting people who have bad symptoms and find the common details like allergies, which might have connections with the symptoms.
But the internet-based systems can allow that microscopic images of the viruses or bacteria can share with researchers along with genetic codes of that kind of thing, what is suspected to cause the epidemics. The net-based systems are always effective tools for sharing documents, and they are working in that role in many educational and business environments.
And the genetic data like base sequence along with the electron microscope images of the viruses are also documents. They can be shared around the world, that the entire scientific community can find the answer, what type of medicals are fitting to the diseases.
The internet-based solutions bring in the front of the eyes the image of human-shaped robots that are operating with deadly organisms. In real-life those remote-operated laboratories can look like some car factories, where robot arms are hanging from the roof. That denies the attempt to steal those organisms from the laboratories.
When we are thinking about human-shaped robots there is a possibility, that the persons, who are operating them are willing to steal the organisms by using those robots. In those laboratories is important to remember the safety, and limiting the movements of the systems allows the operators to deny things, which should not allowed.
The internet-based data handling process allows also finding the chemical formula of the core-protein of the viruses, and maybe someday, there is some kind of medicines, that can terminate viruses. The core-protein of the viruses is a very complicated thing. But if sometimes would find the antigen, what can affect the core of the virus, that kind of thing would make the revolution in medical sciences.
Nowadays the antigen against viruses is producing by using the cell cultures, which are made by using the immune cells of the infected people, who are amending the disease. The problem is that this kind of production of medicals must be made separately against every virus type, and that makes this kind of technique ineffective for creating medicals against viruses.
Creating the medicals that way this method requires that some people would be infected with the virus. And then the cell cultures and the serum-separation process is very difficult to handle if there is a hurry. That's why the vaccines are still the prime method to fight against viruses, but the problem is that every single vaccine requires the viruses, and the vaccines are ineffective in the cases where the immune defense of the person is weakened.
The thing that the researchers are wanted to make is the new type of penicillin. That "next-generation" or "advanced penicillin" would be a similar revolutionary invention what the penicillin was at that time. But there are huge problems to create those molecules, which should open the core of the virus.
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