Infocommunication technologies and communication systems - bachelor's degree (11.03.02). Infocommunication systems Infocommunications and communication systems

Training in the field is the basis for interesting and highly paid work in the field of information and communication technologies, in the field of technology and development of technical means for processing and storing all types of information, receiving and transmitting it over any distance.

Basic information for applicants

From the learning process

The professional activities of graduates are related to the design and creation of advanced radio-electronic equipment for mobile and fixed communications for ground-based and space-based facilities, data transmission networks and personal telecommunications services, computer data collection and processing systems.

Key points

1. The curriculum provides a combination of fundamental theoretical and practice-oriented training of specialists;
2. In research and development, educational and scientific laboratories, advanced radio measuring equipment from the world's leading companies is used. The educational and scientific laboratories present breakthrough problems - unique radar, radio navigation and telecommunication technologies, video equipment, signal processors, microwave systems and equipment;
3. The Research Institute of Radio Engineering and Telecommunications (NIIRT) and the Research Institute "Prognoz" working at LETI, which develop and implement telecommunication systems, radio-electronic systems for environmental monitoring and emergency forecasting, provide students studying in the direction of "Radio Engineering" with the widest opportunities for direct participation in scientific and project work.
4. Within the framework of the current federal program, 2 projects are being implemented: “Training highly qualified specialists in the field of special radio electronics systems” (in collaboration with OJSC Research Institute “Vector”) and “Training qualified specialists in the field of microwave systems, ultra-wideband radar and communications” (in cooperation with OJSC "NPP "Radar mms")
5. Five basic departments at the faculty’s partner enterprises, participating in the organization of the educational process, provide students with a base of practice, topics and guidance for final qualifying work and subsequent employment.

Training profiles

• Mobile communication systems
• Radio communication and radio access systems

Basic disciplines

• natural science disciplines,
• information Technology,
• theoretical foundations of electronics,
• electromagnetic fields and waves,
• mathematical apparatus of radio engineering,
• fundamentals of metrology and radio measurements,
• theoretical foundations of radio engineering and communications,
• radio circuits and signals,
• digital devices and microprocessors,
• technical electrodynamics,
• antennas and radio wave propagation,
• radio systems,
• digital signal processing,
• reception and processing of radio signals,
• basics of building infocommunication networks,
• basics of wireless radio communication, etc.

Graduate departments

Infrastructure

• Classrooms, including those equipped with modern multimedia tools
• Modern computer classes
• Educational and scientific laboratories equipped with modern instruments

International internships and training

Students studying in the field of “Infocommunication Technologies and Communication Systems” have the opportunity to undergo an internship at leading universities in Europe and Asia, participate in academic mobility programs, and receive, along with an LETI diploma, a diploma from the Technical University of Lappeenranta (Finland) or the Technical University of Lappeenranta (Finland). Ilmenau (Germany).

Internships and training ends obtaining European certificates and diplomas.

Who and where do graduates work?

Bachelor's degree graduates are specialists in the field of information exchange technologies, as well as the design, development and maintenance of advanced electronic equipment for:

• mobile, satellite and cellular communications,
• data networks and personal telecommunications services,
• computer systems for collecting, processing and storing data,
• switching and routing of information flows.

The direction of training “Infocommunication technologies and communication systems” refers to the most knowledge-intensive and rapidly developing areas of human activity. It is no longer possible to imagine our life without mobile communications, a personal computer, a tablet. All sectors of the economy, government, and the armed forces cannot exist without modern telecommunications systems and information technologies. Combining the information and communication components of bachelor's training in one direction ensures the receipt of the most modern education, in demand by society, which allows the graduate to find an interesting and well-paid job.

To ensure high quality of training and competitiveness of graduates The Faculty of Radio Engineering and Telecommunications places great emphasis on integration and cooperation with employers and strategic partners. High-quality preparation during training is the key to a successful career for graduates at industrial enterprises, research institutes and organizations.

Employers and strategic partners

• JSC NPP "RADAR MMS",
• JSC "Research Institute "Vector"
• "Cryotherm"
• JSC "Morion"
• NIIRA,
• FSUE NIIT,
• NPK Central Research Institute "Granit",
• Baltic plant,
• Komin LLC,
• JSC "Plant named after. Kozitsky",
• JSC RIVR,
• Central Research Institute "Electron",
• group of companies "Ista"
• Institute of Applied Astronomy RAS,
• holding company "Leninets"
• JSC "RIMR" (Russian Institute of High-Power Radio Engineering),
• JSC "MART" (powerful radio and television equipment),
• JSC "Svetlana"
• JSC "Avangard"
• JSC "Inteltech"
• Physicotechnical Institute of the Russian Academy of Sciences,
• Institute of Silicate Chemistry RAS,
• Central Research Institute "Electropribor",
• All-Russian Research Institute of High Frequency Currents.

Infocommunication systems and networks are a new branch of the economy, the development of which determines the comfort of people’s lives. They are necessary for transmitting certain information of different nature over specific distances.

Historical reference

Infocommunication systems and networks initially developed separately. were associated with telecom operators building their business on the sale of voice traffic. Information technologies followed their own path of development; they were associated with the creation of software.

The advent of the Internet

The gradual development of digital technologies has contributed to the fact that for the rapid exchange of information, computers began to be combined into local networks. They began to allocate powerful specialized machines - servers, the main resources of which were available to other network users. This situation led to development as the need for high-quality high-speed information transmission systems increased.

There was a need to connect disparate networks that were located at a significant distance from each other. This is how the Internet was born, which is an intermediary between networks. It combines separate local networks into one global system.

Modern tendencies

Currently, infocommunication systems and networks are an essential element of the domestic economy. The integration of information technologies and telecommunications into one industry of infocommunications is a global trend. In the near future, the term “infocommunication systems and networks” will become more commonly used, as the number of companies and organizations in which such technologies will form the basis of their work will increase.

Useful information

Infocommunication networks and communication systems are a complex set of different technical means that ensure the transmission of various messages over the desired distances with specific quality characteristics.

They are based on multi-channel transmission systems via electrical cables and radio lines, which are designed to form standard paths and channels.

Features of training

How can I get a specialty in “infocommunication networks and communication systems”? A profession related to digital devices is currently especially in demand and relevant. We need specialists who are proficient in information technology.

In the system of secondary vocational education, Federal State Educational Standards have been created for graduates. “Infocommunication systems and networks” is a direction in which graduates can get a job as a “technician”.

Employee Responsibilities

What requirements does the Federal State Educational Standard make for specialists in the field of ICT? “Infocommunication networks and communication systems” is a specialty whose holders must provide a certain territory with high-quality communications, radio broadcasting, and television. The technician works with a variety of communication channels, which is necessary for the functioning of transmission systems.

Modern technologies for maintaining infocommunication systems and networks allow technicians to ensure high-quality transmission of information over the required distances.

The main place in technical support is given to optical technology, thanks to which the speed of information transmission is increased and the quality of communication is improved.

Important aspects

Training in the profession of “multi-channel telecommunication systems” involves the use of applied academic disciplines. During lectures, students learn software data encryption technologies to protect important information. In addition, future specialists in this field must have an understanding of the installation and operation of digital and cable information transmission systems, and know the basics of building infocommunication systems and networks. Students of higher educational institutions master the management curriculum for the organization of managerial work.

What graduates can do

Specialists must operate multi-channel telecommunication systems. Work on information security of networks is mandatory. Young specialists are realizing the convergence of services and technologies of electrical communication systems. Technicians are in demand in commercial and government enterprises. They carry out maintenance and installation of communication cables, and carry out system diagnostics.

Workers are engaged in eliminating the consequences of equipment defects and accidents and determining options for restoring their functioning. At enterprises, such specialists are engaged in measuring equipment performance, installing and professionally maintaining unified computer systems. The employee's responsibilities include installation, configuration, and maintenance of network equipment.

The technician monitors the performance of network equipment and interacts with network protocols. They use reliable information security tools in their professional activities.

Other responsibilities of this specialist include:

• analysis of the performance of systems capable of identifying various problems;
• ensuring safe maintenance of computer systems;
• monitoring of innovation systems;
• work planning;
• implementation of marketing research

Professionals create and operate systems for transmitting important information and work at automatic stations. Graduates in the field of “multichannel telecommunication systems” work in linear hardware shops, communication centers, and radio relay shops.

Telecommunications are everything that surrounds modern man and is used by him every day. Information technologies are the main engine of progress. This industry is one of the most developing industries. Thanks to telecommunications, the quality of life of a modern person is significantly improving.

The term “telecommunication” includes two words: “tele” (translated from Greek as “far”), “communication” (from Latin - “connection”). Thus, this is a method of transmitting information over significant distances using electromagnetic, electronic, information, computer, and network technologies. Telecommunications include radio communications, the Internet, mobile and satellite communications, ATMs, online stores, and social networks. Telecommunications technologies refer to the principles of organizing innovative digital and analogue systems and communication networks, including the World Wide Web. Telecommunications means are considered to be the sum of technical algorithms, devices, software that make it possible to receive and transmit information through electrical and electromagnetic waves via radio and cable channels in different wavelengths.

Telecommunication networks and systems are spatially distributed mass-use systems that allow transmitting, concentrating, distributing information, images, texts, transmitting multimedia and audio information, transmitting stereo programs, controlling the delivery of electronic messages, and providing World Wide Web services.

They can be local, capable of covering a very small area. There are also territorial systems that cover a significant geographical area.

Global networks cover a significant global space.

To control the quality of training of specialists who are involved in servicing and setting up computer systems, new generation educational standards have been developed.

Conclusion

Graduates of secondary vocational and higher educational institutions studying in the specialty “telecommunication systems and networks” must be fluent in network cards, modems, network cables, and intermediate equipment. The specialty “telecommunications” guarantees the student high-quality training in the field of electronic technology, devices for transmitting important information, computer methods of design and analysis, programming, designing networks for transmitting significant amounts of information with significant speed, managing individual network elements, and using digital computer technologies.

Training in the field is the basis for interesting and highly paid work in the field of information and communication technologies, in the field of technology and development of technical means for processing and storing all types of information, receiving and transmitting it over any distance.

Basic information for applicants

From the learning process

The professional activities of graduates are related to the design and creation of advanced radio-electronic equipment for mobile and fixed communications for ground-based and space-based facilities, data transmission networks and personal telecommunications services, computer data collection and processing systems.

Key points

1. The curriculum provides a combination of fundamental theoretical and practice-oriented training of specialists;
2. In research and development, educational and scientific laboratories, advanced radio measuring equipment from the world's leading companies is used. The educational and scientific laboratories present breakthrough problems - unique radar, radio navigation and telecommunication technologies, video equipment, signal processors, microwave systems and equipment;
3. The Research Institute of Radio Engineering and Telecommunications (NIIRT) and the Research Institute "Prognoz" working at LETI, which develop and implement telecommunication systems, radio-electronic systems for environmental monitoring and emergency forecasting, provide students studying in the direction of "Radio Engineering" with the widest opportunities for direct participation in scientific and project work.
4. Within the framework of the current federal program, 2 projects are being implemented: “Training highly qualified specialists in the field of special radio electronics systems” (in collaboration with OJSC Research Institute “Vector”) and “Training qualified specialists in the field of microwave systems, ultra-wideband radar and communications” (in cooperation with OJSC "NPP "Radar mms")
5. Five basic departments at the faculty’s partner enterprises, participating in the organization of the educational process, provide students with a base of practice, topics and guidance for final qualifying work and subsequent employment.

Training profiles

• Mobile communication systems
• Radio communication and radio access systems

Basic disciplines

• natural science disciplines,
• information Technology,
• theoretical foundations of electronics,
• electromagnetic fields and waves,
• mathematical apparatus of radio engineering,
• fundamentals of metrology and radio measurements,
• theoretical foundations of radio engineering and communications,
• radio circuits and signals,
• digital devices and microprocessors,
• technical electrodynamics,
• antennas and radio wave propagation,
• radio systems,
• digital signal processing,
• reception and processing of radio signals,
• basics of building infocommunication networks,
• basics of wireless radio communication, etc.

Graduate departments

Infrastructure

• Classrooms, including those equipped with modern multimedia tools
• Modern computer classes
• Educational and scientific laboratories equipped with modern instruments

International internships and training

Students studying in the field of “Infocommunication Technologies and Communication Systems” have the opportunity to undergo an internship at leading universities in Europe and Asia, participate in academic mobility programs, and receive, along with an LETI diploma, a diploma from the Technical University of Lappeenranta (Finland) or the Technical University of Lappeenranta (Finland). Ilmenau (Germany).

Internships and training ends obtaining European certificates and diplomas.

Who and where do graduates work?

Bachelor's degree graduates are specialists in the field of information exchange technologies, as well as the design, development and maintenance of advanced electronic equipment for:

• mobile, satellite and cellular communications,
• data networks and personal telecommunications services,
• computer systems for collecting, processing and storing data,
• switching and routing of information flows.

The direction of training “Infocommunication technologies and communication systems” refers to the most knowledge-intensive and rapidly developing areas of human activity. It is no longer possible to imagine our life without mobile communications, a personal computer, a tablet. All sectors of the economy, government, and the armed forces cannot exist without modern telecommunications systems and information technologies. Combining the information and communication components of bachelor's training in one direction ensures the receipt of the most modern education, in demand by society, which allows the graduate to find an interesting and well-paid job.

To ensure high quality of training and competitiveness of graduates The Faculty of Radio Engineering and Telecommunications places great emphasis on integration and cooperation with employers and strategic partners. High-quality preparation during training is the key to a successful career for graduates at industrial enterprises, research institutes and organizations.

Employers and strategic partners

• JSC NPP "RADAR MMS",
• JSC "Research Institute "Vector"
• "Cryotherm"
• JSC "Morion"
• NIIRA,
• FSUE NIIT,
• NPK Central Research Institute "Granit",
• Baltic plant,
• Komin LLC,
• JSC "Plant named after. Kozitsky",
• JSC RIVR,
• Central Research Institute "Electron",
• group of companies "Ista"
• Institute of Applied Astronomy RAS,
• holding company "Leninets"
• JSC "RIMR" (Russian Institute of High-Power Radio Engineering),
• JSC "MART" (powerful radio and television equipment),
• JSC "Svetlana"
• JSC "Avangard"
• JSC "Inteltech"
• Physicotechnical Institute of the Russian Academy of Sciences,
• Institute of Silicate Chemistry RAS,
• Central Research Institute "Electropribor",
• All-Russian Research Institute of High Frequency Currents.

Infocommunications (ICT) is represented in the economy as a new industry that combines information and telecommunication technologies.

Communication systems here act as a means of transmitting various types of data over an arbitrary distance. As part of the global trend, infocommunications are aimed at developing networks and distributing the number of global information services.

The introduction of ICT and the development of the Internet provoked the rapid growth of a new sector of the economy, the place and role of humans in which is radically changing.

Each individual is the main productive force of knowledge and information. As a result of this, the industrial economy is being replaced by one that is based precisely on these two derivatives. The gross domestic product is ensured through the production, processing, storage and dissemination of information and knowledge.

Development of infocommunication technologies and communication systems in the Russian Federation

Infocommunication technologies and communication systems, when integrated into the global division of labor, can lead to radical changes in the use of intellectual and personnel potentials of the Russian Federation, making a transition to an innovative type of development. In 2016, in the UN e-government ranking, Russia was in 35th place with an index of 0.7215, while the UK was recognized as the leader with an index of 0.9193.

South Korea, which dropped to 3rd place, remained the leader of the ranking for several years in a row, improving the processing of customs export declarations from one day to two minutes, and import declarations to 1.5 hours. This helped them save a significant amount of $2.5 billion.

The annual volume of funds that can be saved through the introduction of infocommunications reaches 4.5 billion dollars.

Innovative technologies allow companies to:

• maintain the company's competitiveness;


• penetrate new market segments;


• create new concepts;


• increase labor productivity;


• speed up decision making, etc.

Infocommunication technologies and communication systems have a beneficial effect not only on individual companies, but also on cities, regions, and countries in general.

In the future, the improvement and development of electronic systems will contribute to bringing the Russian Federation into the global information space and the global information society, expanding the range of problematic issues and tasks that arise in the layers of economics, science, government, education and are subject to detailed consideration and effective elimination.

In this case, it is preferable to take a course on a scenario based on innovative development. It is due to the transformation of all spheres of public life and the further democratization of the country. The implementation of these goals will allow e-government to receive timely information about the population’s reactions to the most important decisions.

Countries that fail to keep up with the accelerating pace of development of infocommunication technologies are ultimately deprived of the opportunity to fully participate in the information society and economy. Therefore, the most important task facing the Russian Federation is rapid and successful integration into the global infrastructure of infocommunication technologies.

Infocommunication technologies and special communication systems

"Infocommunication technologies and special communication systems"– one of the areas of undergraduate training at universities in the Russian Federation (training area code 11.03.02). After completing their studies, young specialists work in the IT field as programmers, telecommunications engineers or network administrators.

Graduates of the field of infocommunication technologies and special communication systems

The graduate receives qualifications sufficient to assess the relevance and cost-effectiveness of the development of devices and networks in the context of the chosen training profile (mobile communications, multimedia, broadcasting, security systems, information security) and their design:

• selection and analysis of data sets;


• calculations;


• development and execution of design and technical documentation;


• regulatory control;


• drawing up patent passports and instructions for new developments.

A general specialist organizes the implementation of network equipment and technologies, from monitoring the production process to directly performing installation and debugging operations for each component and the system as a whole. As an administrator, he carries out equipment maintenance and troubleshoots problems that arise. Employment in the field of information security is also possible.

Considering the widespread penetration of IT technologies into all sectors of the economy and spheres of social life, students of the specialty undergo internships and are then employed in companies and government agencies of various profiles: industrial enterprises (technical and technological departments), military bases, units of the FSB, the Ministry of Emergency Situations, the Ministry of Internal Affairs, medical and educational institutions, banks, tax and customs services, TV channels, etc.

Examples of infocommunication technologies and special communication systems

Automation of business processes, in particular management, finance and reporting, document flow, and marketing, is used by companies of various profiles. An innovative tool for solving these problems, improving the quality of staff work and optimizing resource planning in the medical field is an information system. "EMSIMED".

Distinctive features:

• modular structure for customizing configurations for medical institutions with various specializations;


• connection of third-party products (1C, etc.);


• advanced architecture and intelligent encryption.

Components:

Additionally, design modules, software for SMS messaging and biometric access control are connected to the system.

Complex software and hardware solutions in the category “Infocommunication technologies and special communication systems” are also used in the hotel business.

Example of MICROS Fidelio software integration at the Radisson Blu Hotel Chelyabinsk:

Network components:

• telephone exchange;
• cash register, including electronic;
• reservation systems;
• electronic locks;
• automatic minibar;
• credit card authorization;
• building engineering systems;
• Internet and TV tarifficator;
• accounting;
• video surveillance and alarm;
• audio broadcast;
• uninterruptible power supply;
• multimedia equipment for conference rooms;
• reception management.

Companies of the same profile as Radiotelecommunications LLC (creator of an integrated hotel network) provide individual solutions to office and shopping and entertainment centers, points of sale, production and enterprises of various profiles.

Modern communication technologies and communication systems are demonstrated at the “Communication” exhibition at the Expocentre Fairgrounds.

B.3 Professional cycle

B.3.A.1 Theory of electrical circuits

B.3.A.2 Electronics

B.3.A.3 Power supply for telecommunications devices and systems

B.3.A.4 General communication theory

B.3.A.5 Computer technology and information technology

B.3.A.6 Fundamentals of building infocommunication systems and networks

B.3.A.8 Electromagnetic fields and waves RP

B.3.A.9 Metrology, standardization and certification in infocommunications

B.3.A.10 Digital signal processing

B.3.A.11 Circuit design of telecommunication devices

B.3.B1 Methods and measuring instruments in telecommunication systems

B.3.B2 Structured cabling communication systems

B.3.B3 Introduction to the specialty

B.3.B4 Application software

B.3.B5 Theory of teletraffic

B.3.B6 Broadcasting technologies

B.3.B7 Networks and wireless communication systems

B.3.B8 Fundamentals of microwave electronics and optoelectronics

B.3.B.1.1/B.3.B.1.2 Guiding media in telecommunications // Guiding media in telecommunication networks and methods for their protection RP

B.3.B.2.1/B.3.B.2.2 Fundamentals of cryptography // Fundamentals of steganography

B.3.V.3.1/B.3.V.3.2 Multichannel telecommunication systems // Multichannel digital transmission systems and means of their protection

B.3.V.4.1/B.3.V.4.2 Intelligent data networks // Fundamentals of information security of open systems

B.3.V.5.1/B.3.V.5.2 Legislative legal foundations of information security // Fundamentals of organizational and legal support of information security of networks and systems

B.3.V.6.1/B.3.V.6.2 Methods and means of protecting telecommunication networks // Software and hardware for protecting information in communication networks

B.3.V.7.1/B.3.V.7.2 Design of information and telecommunication systems // Methods and means of protecting wireless communication systems

Electives

F1 Patenting

F2 Creation of WEB sites

F3 Fundamentals of engineering creativity

IN THE DIRECTION 11.03.02"INFOCOMMUNICATION TECHNOLOGIES AND COMMUNICATION SYSTEMS"

1. Design of a local computer network for the production division of Proton JSC.

2. Design of a local computer network for the administrative division of Proton JSC.

3. Design of a technological communication network for the production site of Proton JSC.

4. Modernization of the internal communication network of Proton JSC.

5. Design of a local computer network for the production division of Proton-Electrotex CJSC.

6. Design of a local computer network for the administrative division of Proton-Electrotex CJSC.

7. Modernization of the internal communication network of Proton-Electrotex CJSC.

8. Design of a technological communication network for the production site of Proton-Electrotex CJSC.

9. Design of a local computer network for the production division of NPASC Nauchpribor.

10. Design of a local computer network for the administrative division of NPAO Nauchpribor.

11. Modernization of the internal communication network of NPASC Nauchpribor.

12. Design of a technological communication network for the production site of NPASC Nauchpribor.

13. Modernization of the public switched telephone network on the scale of an urban microdistrict.

14. Modernization of the public switched telephone network on the scale of an urban village.

15. Design of a segment of a new generation communication network based on the public switched telephone network.

16. Modernization of the cellular mobile communication network on the scale of an urban microdistrict.

17. Modernization of the cellular mobile communication network on the scale of an urban village.

18. Modernization / design of a cellular mobile communication network on the scale of a rural administrative district.

19. Design of a geographically distributed network of operational industrial communications.

20. Design of a technological network for wireless mobile communications.

21. Design of an emergency communication network for a rural administrative district.

22. Design of a system for remote monitoring and control of a technical object.

23. Design of a geographically distributed security alarm system.

24. Design of a local computer network of a medical institution.

25. Design of a local computer network of a financial institution.

26. Design of a local computer network of a commercial establishment.

27. Design of a local computer network of a secondary school.

28. Design of a local computer network of an educational building of a higher educational institution.