Human vs computer

Everybody knows that every animal species follows Darwin’s evolutionary rule that compels animals to adapt their behavior continuously to their surroundings. This is a well-known truth regarding the development of animals. To be accurate, every creature except man, who acts in a polar opposite way, adapts his job to his own needs for survival. As a consequence, in this field, he usually has a natural advantage: intellect.

As a result of this long-standing reverse adjustment process, we have come to what we now term “progress.” The development of “artificial intelligence” made this feasible, which enabled robots to become sensitive and compete for supremacy in many areas with human beings.

Some renowned scientists and engineers have lately voiced concern about the dangers to human health and safety posed by these advancements. Many alluded to the potential dominance by robots as a result of their uncontrolled greater intellect, which they feared would end up as a sort of human enslavement.

When compared to the point control of a major league pitcher of the finest baseball pitch control machine, you make an unfair comparison. In the end, the machine will be triumphant. On the other hand, the machine is totally unable to reason or reason. It cannot connect with people or converse with them. It will do exactly what it intends to do and will do nothing more or less. It won’t go wrong.

If you have ever played chess in a tournament, it’s more than simply brain vs brain or knowledge versus knowledge. Trust me when I say that it’s more than the brain against the brain. It is aware of the vulnerabilities of its opponent and exploits them. You may utilize the psychological strategy of smile and move quickly when your opponent has moved. Make a totally unexpected and perhaps extremely difficult move when your opponent has serious time restrictions. Briefly stated, it’s a human fight against human beings.

The processing of neural codes often appears as a sequence of linear stages, similar to a series of dominoes that fall one by one. In terms of action, on the other hand, the brain consists of interconnected neural networks which are connected to the outside environment to perform tasks. We lose sight of this processing and analysis when we focus on the clusters of sensory and neurons that process without connecting these networks with animal behaviors.

It is easy to disregard the fact that the brain is a dynamic organ, a bodily component that interferes in the environment and has an evolutionary history that has affected its shape and function when we see it as an input-and-analysis computer. But that is not the case. The Hungarian neurologist, György Buzsáki, has released a book entitled The brain from the inner out, offering this point of view on the brain. As Buzsáki explains, the brain not only absorbs and keeps information in a neural code passively but also actively searches for additional options to evaluate and contrast many of the alternatives. He concluded that the brain does not represent information, but creates information that scientists have communicated during the 19th century.


So far, it’s all on a level playing field. In the human brain, there is considerably more storage capacity than a typical computer. In addition, a computer is able to process information at a rate of magnitude quicker than the human brain.

So, how about making your memories accessible? Is it possible for a person more effectively to remember knowledge than a computer does? The answer is “it varies,” depending on the type of information we are talking about. When it comes to the fundamental facts, the answer is clearly no. If a computer “knows” that Carson City is Nevada’s state capital, that information will always be available to it. However, a person may get confused or lose that information over time, especially after a long weekend in Las Vegas.

A remarkable area in which computers are not humane is their capacity to give qualitative evaluations to information bits. All information on computers is the same as each other. In contrast, people preserve a large array of memories and classify them as important. You will certainly remember many things from your wedding day, but you will most likely forget what you ate during Thursday’s luncheon. (In case you wonder, the tuna and rye sandwich were prepared.)

Remember that people are prone to connecting memories, thus your New Year’s Eve recollections will be connected throughout your life to all of your previous New Year festivities. A computer presently does not have the ability to do so at this time.

The next step in the evolution of artificial intelligence

All artificial intelligence technology today is classified as a weak AI, which does not mean that technology has not progressed. Weak artificial intelligence in a few areas has already exceeded human skills. Strong artificial intelligence is characterized by its capacity to transfer information and competence in many circumstances, including novel ones, from one environment to another. Reinforced artificial intelligence is described as the capacity to operate independently and to address a wide range of issues. It is also able to communicate proactively with other robots and humans. A virtual assistant with superior artificial intelligence might anticipate our requirements even if no instructions were given.

The capacity to learn on its own is an essential element of powerful artificial understanding that we know well now in machine learning and in-depth learning. For machine learning, a huge quantity of data and problems must be solved, and specific algorithms are necessary for this process that can identify significant patterns in the data.


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