WORKING TOGETHER: EDUCATION, RESEARCH AND DEVELOPMENT FOR 5G NETWORKS
DOI:
https://doi.org/10.15673/2312-3125.24/2015.56319Ключевые слова:
5G, Blocking Probability, Teletraffic Engineering, Queue Model.Аннотация
In the new world of globalization of ideas and mobility difficulties in knowledge diffusion still remains. The effective
exchange of experiences and skills in new generation networks is not guaranteed by the enormous potentials
ofinternetworking systems and devices. Conceptual model for performance modeling and evaluation of multiservice
networks has been major interest for mobile networks providers. It is essential to assess the performance of
mobile system architectures in order to identify where potential bottlenecks and data packet blocking probability
are possible to occur. Educational platforms, new simulations opportunities represent a good opportunity to reduce
the digital divide and to ensure faster and higher communication trends. Several universities and companies are
currently involved in using educational platforms to provide better results. Conceptual model for teletraffic
engineering in educational platform and applications focuses on some important aspects: tutorials, exercise,
simulations, and expectation values of parameters, testing and estimation of students work. In the same time the
same model is very appropriate for simulation of network management for the new generation networks. This
educational platform for academics, students and researchers, puts together some of the critical aspects of
distributed systems and their characteristics, parameters and probability of blocking.
Библиографические ссылки
Brahmi N., METIS: Mobile Communications for 2020 and beyond, VDE/ITG Fachtagung Mobilkommunikation, 2013;
Iliev, T., Gr. Mihaylov. 3GPP LTE system model analysis and simulation of video transmission. Proceedings in Advanced Research in Scientific Areas, Slovak Republic, 2012, pp. 2016-2021;
Ivanova, E. Modeling of the traffic in broadband convergence networks, PhD dissertation, University of Ruse, 2013;
Ivanova E., T. Iliev. Trends in development of next generation networks, Journal of the Union of Scientist Ruse, vol.12, 2015, pp.50-54 (in bulgarian);
Mihaylov Gr., T. Iliev, E. Ivanova. Algorithm for Content Adaptation of Multimedia Information. International Journal of Engineering, Business and Enterprise Applications (IJEBEA), 2015, No 11, pp. 1-7;
Otsetova-Dudin E., Radeva S. Simulation modeling of broadband wireless handover at cellular radio networks.// Automation and Information, 2012, No 5-6, pp. 311-314;
Popovski P., Ultra-Reliable Communication in 5G Wireless Systems, 1st International Conference on 5G for Ubiquitous Connectivity 5GU Conference, 2014;
Pratas N., P. Popovski, Underlay of Low-Rate Machine-Type D2D Links on Downlink Cellular Links, IEEE International Conference on Communications, ICC 2014, 2014;
Radev D., Teletraffic Engineering, University of Ruse Press, 2012;
Radev D., R. Raev, T. Iliev, Gr. Mihailov, E. Ivanova. Conceptual Model for Educational Platform for Simulation of Teletraffic Engineering. 13th International Conference on Information Technology Based Higher Education and Training - ITHET 2014, York, England, 2014, pp.1-4;
Raev R, Ivanova E, Dudin E, Radev D. Educational Platform For Teletraffic Engeneering, 6th International Conference on Education and New Learning Technologies, Barcelona, Spain, 2014, No 1, pp. 7122-7127;
Sells, C., Windows Forms Programming in C#, 2003.