Artificial intelligence, as a separate field of research, is currently experiencing a boom - new methods of machine learning and hardware are emerging and improving, and the results achieved change the life of society. Machine translation, handwriting recognition, speech recognition are changing our reality. The work of creating unmanned vehicles, voice assistants and other devices using these technologies is in an active process. The article examines the historical context of the artificial intelligence development, it evaluates the possibilities of its introduction into cyber games, as a safe and effective platform for testing new methods of machine learning. The promotion of such projects can increase the reputation of development companies, ensure increased user confidence in other products and, with a competent marketing strategy, cause a significant public resonance among video game fans, providing the developer with economic profit.
The article highlights and justifies the input parameters for the simulation model of an intersection. The purpose of building the model is to predict and evaluate the results for reducing traffic and pedestrian downtime. The object of the study is an intersection located in the Pokrovskoe-Streshnevo area of the Northwest District of Moscow (55°49'35.9 "N37°27'08.0 "E). The authors structured and analyzed traffic flows passing through the intersection. The frequency of public transport, the location of nearby stops of such transport, and the phases of traffic lights were determined. Also, the parameters for the simulation scenarios are defined.
The results of structuring, analysis and synthesis of objects and processes of the road network section in the northeastern part of Shchukino District in Moscow are presented in the article. The purpose of this study is to identify the key quantitative and qualitative indicators necessary to create a simulation model of the corresponding area. The features of transport and pedestrian flows of the road network section are distinguished.
The purpose of this article is to develop students’ critical thinking for solving problems in the field of information security by using the method of problem learning in teaching the discipline “Information Security”. The role of this method in the development of critical thinking, research creativity of students and their achievement of a better understanding of educational material in the field of information security is emphasized.Materials and research methods. The main conditions for the effectiveness of problem learning in the study of the discipline “Information Security” are highlighted by the method of analysis of the subject area: motivation of students, the feasibility and significance of problem situations offered to students on various aspects of information security, dialogical friendly communication between lecturer and students. As research materials, an example of using the method of problem learning in solving the task of information protection in state information systems with terminal access devices is considered. The example presents the problem of increasing the efficiency of information protection in state information systems with terminal access devices, i.e. state information systems using the “thin client” architecture, as well as a way to solve it by assessing threats and improving the relevant mechanisms for ensuring information security, presented in the regulatory documents governing the requirements for information protection in state information systems with terminal access devices. Results. The paper considers the practical task of creating and resolving a problem situation for the protection of information in state information systems with terminal access devices, which can be used in the educational process to solve similar tasks by the method of problem learning.The creation of a problematic situation is based on the existing contradictions in the regulations governing the functioning and protection of information of this type of systems in which the protected information is processed in order to comply with legislation and ensure the functioning of authorities. As a result of using a systematic approach, which involves considering the process of information protection in the form of a set of stages in the formation of requirements for state information systems using the architecture of the “thin client”, improving the regulatory framework, the trainees form proposals for the protection of information in state information systems using the architecture of the “thin client” to ensure the design security of state information systems, taking into account the complex of urgent threats to information security. The presented solution to the problem situation in the considered task requires from the trainees general cultural competencies, such as: identifying contradictions, colliding opposing points of view, comparing facts, considering the problem from different points of view, generalizing, concretizing facts, etc.Conclusions. Thus, the paper substantiates the method of problem learning in the study of the discipline “Information Security” and presents an example of its use in solving the problem of information protection in state information systems with terminal access devices. As a result, the trainees must identify threats that are absent in the information security threat databank of the Federal Service for Technical and Export Control of the Russian Federation (FSTEC of Russia) and determine the directions for further development of information security and information protection in state information systems with terminal access devices. The practical solution of this problem by a group of students within the framework of the study of the discipline “Information Security” showed a high level of competence development.
In recent years, due to the intensive development of computer technologies in industrial automation, discrete control systems have been increasingly used. To determine the stability of the system, calculations of the correlation functions of signals of various types can be used. In practice, signals with different types of modulation are used: amplitude, phase and frequency, as well as their various combinations.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.