Modern research in the development of information technologies

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Introduction
One of the important directions of development and improvement of social systems is the formation of conditions that are aimed at creating a safe living environment to meet all the necessary human needs, comfortable living conditions and the possibility of spiritual development in accordance with the goal of sustainable development.
In the process of civilizational development, the number of dangers threatening a person is steadily increasing with an increase in their damaging power.
The hazards of the physical nature of the impact are divided into mass, energy and information, which, depending on their intensity, can be of a normal (tolerant), dangerous and extremely dangerous nature. Mass flows are characterized by the movements of large masses of substances in emergency situations of a natural and man-made nature (earthquakes, collapse of buildings and structures, typhoons, tsunamis, etc.) with a level of danger depending on the quantitative characteristics and concentration of these masses.
Energy flows affect a person mainly through various fields and radiations (magnetic, electric, acoustic fields, ionizing and radiation radiation, etc.), which are characterized by the power of radiation and the intensity of the fields. Information hazards are characterized by exceeding the capabilities of a person's analysis of information flows coming to him or by the inaccuracy of information, which may be accidental or intentional, but all this can lead to unfavorable scenarios for the development of events.
However, it must be recognized that at present in the modern world, most of the dangers are of a mixed nature and of a physical nature. At the same time, in the qualification of hazards in the safety of life, hazards can be recognized by a person: a person can perceive an outgoing threat with the help of his analyzers. But most of the modern dangers are of an unrecognizable nature. To detect recognizable hazards, various devices iand devices are used that identify, register them and make it possible to analyze the level of danger.
Information or information flows daily fall upon a modern person, take the form of continuously incoming flows, large information arrays, in some situations with the impossibility of its verifying. And it should also be noted that there are energy-informational flows that can affect a person, which can lead to the development of an unfavorable scenario for the development of events not only for one person, but also for a certain circle of people.
Consideration of the concept of "information" is necessary to understand the essence of information and energy information technologies, which are currently being actively developed in many countries of the world in public and private laboratories. In numerous studies of the 20th century by world scientists, there is no single formulation of the concept of "information" [2], [3], [4]. The works present many interpretations of information, as well as concepts that characterize it to one degree or another, as well as the mechanisms of the impact of information and information and energy-informational flows on a person. According to the authors, it is necessary to clarify and disclose in more detail some concepts for studying the impact of information, information and energy-informational technologies on human security.
Transformation and transition to a new industrial stage of development of the world community contributed to the large-scale integration of information and information systems with all spheres of human activity. To transmit, receive, process, optimize information flows, technical systems functioning according to physical laws were needed, which in turn served as the origin of Information Theory [1].
The word "information" -information -explanation, presentation) translated from Latin means "explanation", "presentation", "messages" or "information", therefore, the work of technical systems involved the transmission of information that characterizes their throughput capacity -the amount of information transmitted.

Materials and Methods
In his works, K. Shannon proposed a "mathematical theory of communication", which became the basis of Information Theory, however, as V.I. Nesterov notes, "...there was a substitution of the concepts of "information" and "amount of information", which are not identical concepts [1]. The concept of "information", as a physical category, was transformed into the amount of transmitted information per unit of time or frequency of transmission.
Also, in N. Wiener's definition of "information", physical qualities are not inherent, i.e., it is not matter or energy [4].
In his research, L. Brillouin proposed a universal measure of the amount of information determined by the formula: Where I is amount of information; k is a constant value depending on the choice of the system of units; p is the "complexity" of the object device [6].
The analogy drawn with L. Boltzmann's formula: Where S is the entropy of the system, J/K; k is the Boltzmann constant (k=1.380649 *10-23 J/K), W is the thermodynamic probability, gave researchers the basis for assuming the dependence of information and entropy [1]: Entropy is a measure of the connectedness of energy. Consequently, from expression (3), it can be concluded that the loss of information leads to an increase in the entropy or disorder of the system, which is observed in most cases in practical life.
Later, the "non-entropic principle of information" arose, in which negentropy is understood as a measure of the order and complexity of systems, in contrast to entropy as a measure of disorder [1]. The representation of information and entropy in one formula gives grounds that formally the quantities are identical and have a physical nature: the unit of measurement of entropy is energy.
In the postulates of quantum entropy logic, which considers the interactions of mass, energy and information in the system, it is presented that information, as well as energy and mass, is a material category and information, as an object of the material world, must obey the laws of conservation. According to the laws of conservation of energy, information should not disappear and appear out of nowhere.
As V.I. Nesterov notes in his research that "information has a more universal character than mass ... and it is necessary to talk not about quantum-wave dualism, but about the trinity in the description of the material world, with the inclusion of information as a full member in the equations along with mass-energy»" [7].
In his research, Louis de Broglie suggested that wave-particle dualism is applicable not only to light, but also to material matter, combining the Einstein equation and Planck equation, thereby linking mass with energy and energy with wave frequency and thus mass with wave frequency.
Energy and information are connected by the formula: Where I is information, h is Planck's constant (h= 6.626 070 15 10⁻³⁴ J·s), E is energy [7]. Assuming that information is part of the material world, then both information and information flows are characterized by mass and energy.
Thus, V.I. Nesterov notes, "the theory of quantum entropy logic extends these conclusions of Louis de Broglie to all material environments," including information environments. The entire material medium has wave properties. As a result, it can be concluded that mass, energy and information make up a triune whole. The founder of the theory of quantum entropy logic is Professor Theodore van Houen, a specialist in quantum physics and electronics. It is believed that in his theory, Theodore van Houen combined all the available physical foundations and laws, including the mechanics of Newton, Einstein, Planck, Maxwell's electrodynamics and thermodynamics with the fundamental quantumentropy characteristics of vacuum [7].
One of the hypotheses of Theodor van Houen is the relationship between the complexity of the organization of the system and the maximum amount of energy that the system can emit or absorb. The interaction of information or information exchange of elementary structures of the system components is carried out selectively, distantly and associatively due to the quanta of electromagnetic radiation with the energy of destruction of the connection of the elementary structure of the system [7].
From the theory of quantum entropy logic follows: 1. Information is a material object, an objective physical quantity and is described by quantum equations.
2. Any object, losing (reducing) information in accordance with the formula (3), increases entropy or disorder and becomes more unstable. For biological objects in the sphere of vital activity, the loss of information (structural organization) for the subject can be characterized by an increase in disorder -a decrease in adaptive reactions of the organism, which consists in the development of a disease that can end in the death of the organism [7].
3. The destruction of any object (including biological) is accompanied by information noise, the intensity of information noise depends, among other things, on the speed of destructive processes.
Based on the theory of quantum entropy logic, any event, even an insignificant and occurring in a short period of time and appearing continuous, occurs discretely by changing the phase states of a given system. When the magnitude of the external impact exceeds the critical value, a sudden change in the entropy of the system is observed. The theory of quantum entropy logic made it possible to explain to Theodore van Houen some of the temporal phenomena occurring, including paranormal phenomena, from a materialistic position.

Results
Confirmation of the significance of Theodore van Houen's research and his contribution to understanding the structure of the modern world is the invitation by the National Aeronautics and Space Administration (NASA) and the Pentagon to lead his program to create electronic devices for purposefully changing the state of consciousness and obtaining reproducible psychophysical effects of contactless receiving information from distant (hidden) physical objects. Most of the experiments were carried out on the basis of the Stanford International Research Institute (SRI), the main goal was to obtain information by influencing a person with signals with his introduction into a certain state, followed by obtaining the necessary information in the present and future, with the possibility of intervening in events [9].
SRI is one of the leading research centers in the United States, where they are engaged in innovative developments; the university has been ranked first in the ranking of the most innovative universities in the USA several times in recent years [7]. The experiments conducted at SRI were marked by the creation of devices called mind machines ("brain machines") (metatrons -in the Russian Federation), which are electronic oscillators resonating at the wavelength of electromagnetic radiation (Fig.1. Fig.2).  In the Russian Federation, these studies were conducted by Russian scientists, academicians S. Nesterov and A. Akimov, who developed and created metatron devices and made a significant contribution to the development of domestic science, by conducting research in Omsk at the Institute of Applied Psychophysics, which is headed by corresponding member of the Academy of Medical and Technical Sciences V. I.Nesterova.
In a report published in 1998 Theodore van Houen presented, the possibilities of using these devices in the political and military spheres. In the United States, a network of employees or operators to work with "brain machines" was attracted and then created to work within the framework of these studies.
The importance of research in this area is confirmed by data on investment in research and development of quantum computers, which amount to millions of dollars [11]. For example, in the United States, according to the National Quantum Initiative project, the budget for development and research in 2022 amounted to $ 900 million, the projected budget for 2023 is $ 850 million. (fig.3) [10]

Discussions
Science -entropy logic studies the issues of non-linear remote transmission and receipt of information by operators with the possibility of intervention in the current moment using brain machines. External electromagnetic ones act on the magnetic moments of molecular currents of the accessory centers of the neurocytes of the cerebral cortex, which lose their original orientation, which leads to the disorder of the spin systems of delocalized electrons and is the cause of unstable metastable states in them, the decay of which plays the role of an amplifier of the initiating signal.
With the help of these devices, the method of non-linear diagnostics (NLS) is used to diagnose diseases that are produced when removing indicators of human systems in a noncontact way using trigger sensors. With the help of these hardware and software complexes, the value of entropy of various organs is estimated [7]. The complex evaluates the degree of entropy of interatomic bonds in complex molecules of protein compounds and thereby allows you to reflect the level of their functionality (potency level) or the level of destruction, receiving information about the health status of the subject.
The noise generator of the complex adjusts to one of the resonant frequencies with a biological object and reflects the frequency-resonance characteristics of noise from the object under study in the standard frequency spectrum. The received signal is subjected to frequency-spectral analysis.
According to the developers of Metatron, in those few cases where clinical symptoms are very typical, the method of NLS-diagnostics provides additional information about the extent of the lesion and allows you to judge the prognosis. In the vast majority of cases, it is of fundamental importance for the diagnosis and, accordingly, for the correct choice of treatment [7].
Further research in this area in Russia, conducted by A.A. Orlov, demonstrates great opportunities for obtaining information from various sources that are inaccessible by traditional methods [10]. In a private laboratory in St. Petersburg, with the help of energy information technologies developed by A.A. Orlov without the use of chemical and technical brain activators, he received a large amount of information, later confirmed from various sources. These technologies make it possible to obtain information for various purposes, including very important scientific-cognitive and scientific-practical ones.
Thus, by influencing certain frequencies, while reducing them to certain values, it is possible to introduce a person into an altered state, which is mistakenly called a trance state, including to obtain information information from distant objects.

Conclusion
Scientific and technological progress, as well as the movement into the post-industrial economy caused its informatization, characterized by the transition to qualitatively new information technologies with the globalization of world economic activity. Information is an essential resource, as well as a tool for achieving goals. Modern wars do not begin on the battlefields, but in the information space, therefore it is very important to develop research in the field of information and information technologies to ensure the security of the population and the sovereignty of the state.
Modern research has changed the idea of information, currently information is an object of the material world, which presents new principles, methods of research, and also opens up new opportunities. Energy information technologies or methods of nonlinear forecasting open up great prospects for the study various aspects of human life, including ensuring the safety of the population and territories.