Research Areas
- Methods for optimal management and state estimation of telecommunication systems (TCS) based on the use of dynamic (differential) formalisms and structures.
- Theoretical foundations for the structural and functional design of infocommunication systems and their resource management based on the use of tensor-based research methodology.
- Development of service management systems in multiservice, including cloud-based networks, methods for verification of network protocols based on artificial intelligence and E-network techniques.
The equipment of the laboratory can be used for open seminars, lectures, master classes and other educational activities involving leading experts in improving the quality of education in the educational programs of the department, expanding relationships with employers, the acquisition of practical experience of teachers and students; conduct research and development activities and scientific-practical cooperation in the development and implementation of modern systems and technologies on specialties 172 – “Telecommunications and Radio Engineering” and 125 – «Cybersecurity».
The laboratory is provided with didactic and handout materials in accordance with the educational curricula for the relevant disciplines.
These disciplines integrate the main sections of the following Cisco safety orientation courses: Introduction to Cybersecurity, Cybersecurity Essentials, CCNA Cybersecurity Operations, CCNA Security.
Tutors, who teach networking courses, usually have certificates of mastering the appropriate Cisco-courses or are current instructors of Cisco Networking Academy, which operates at V. V. Popovskyy Department of Infocommunication Engineering.
Educational process
The laboratory provides effective conditions for the implementation of basic education and p rofessional and education and science programs:
- in training bachelors in the specialty 172 “Telecommunications and radio engineering” educational programs: “Telecommunications”, “Infocommunication Engineering” and masters in specialty 172 “Telecommunications and Radio Engineering”, educational programs: “Telecommunications systems and networks” and “Infocommunication engineering” educational programs;
- in the training of bachelors in the 125 «Cybersecurity», «Information Security Management» educational program and masters in the 125 «Cybersecurity», «Information Security Administrative Management» educational program.
The laboratory is equipped for lectures, practical classes, laboratory work, practical training, certification work for undergraduate and postgraduate students from such educational disciplines:
- Administration and protection of multimedia services infrastructure;
- Virtual private networks;
- Banking systems security;
- Ensuring information security;
- Information security in TCS;
- Identification of objects and users;
- Telecommunications systems engineering;
- Information security of telecommunications and cloud technologies;
- Information security management;
- Organization and information support of managerial activity;
- Fundamentals of cryptographic protection of information;
- Fundamentals of planning and administration of services for access to information resources;
- Designing and Configuring Network Security Systems;
- Systems for detecting and counteracting attacks;
- Steganography;
- Telecommunications and Radio Engineering Technologies;
- Blockchain-based transaction technologies;
- Digital forensics;
- Administration and Protection of Multimedia Services Infrastructure;
- Attack Detection and Counteraction Systems;
- Basics of Steganographic Information Protection;
- Corporate Network Protection;
- Digital Criminalistics;
- Information Security in Telecommunication and Cloud Technologies;
- Reliability and Diagnostics of Telecommunication Systems;
- Theory of Information and Coding.
Major scientific achievements
Project TEMPUS / ERASMUS+ 544455-TEMPUS-1-2013-1-SE-TEMPUS-JPCR “Educating the Next generation experts in Cyber Security: the new EU-recognized Master’s program (ENGENSEC).
Publications:
- LEMESHKO O., YEREMENKO O., YEVDOKYMENKO M., RADIVILOVA T. Research of the QoE Fast ReRouting Processes with Differentiated R-Factor Maximization for VoIP-Flows Using the Tensor Model of the Corporate Telecommunication Network. In: Vorobiyenko P., Ilchenko M., Strelkovska I. (eds) Current Trends in Communication and Information Technologies. IPF 2020. Lecture Notes in Networks and Systems, vol 212. pp. 95-110. Springer, Cham.
- LEMESHKO O., PAPAN J., YEREMENKO O., YEVDOKYMENKO M., SEGEC P. Research and Development of Delay-Sensitive Routing Tensor Model in IoT Core Networks. Sensors. 2021; 21(11): 3934, P. 1-23.
- LEMESHKO O., HU Z., SHAPOVALOVA A., YEREMENKO O., YEVDOKYMENKO M. Research of the Influence of Compromise Probability in Secure Based Traffic Engineering Model in SDN. In: Hu Z., Petoukhov S., Dychka I., He M. (eds) Advances in Computer Science for Engineering and Education IV. ICCSEEA 2021. Lecture Notes on Data Engineering and Communications Technologies, vol 83. Springer, Cham.
- YEREMENKO O., PEROVA I., LITOVCHENKO O., MIROSHNYCHENKO N. Framework for Developing a System for Monitoring Human Health in the Combined Action of Occupational Hazards Using Artificial Intelligence and IoT Technologies. In: Hu Z., Petoukhov S., Dychka I., He M. (eds) Advances in Computer Science for Engineering and Education IV. ICCSEEA 2021. Lecture Notes on Data Engineering and Communications Technologies, vol 83. Springer, Cham.
- LEMESHKO O., YEREMENKO O., YEVDOKYMENKO M., SHAPOVALOVA A., LEMESHKO V. Network Security Approach Based on Traffic Engineering Fast ReRoute with support of Traffic Policing. Proceedings of the Selected Papers on Cybersecurity Providing in Information and Telecommunication Systems (CPITS 2021). Kyiv, Ukraine. CEUR, 2021. Vol. 2923. P. 81-90.
