[SEMINAR] June 4, 2026 – Maxim Susloparov – Algorithms for Data Transmission Control in 5G Systems Operating in Multiple Frequency Ranges
We are happy to invite you to the next talk of Moscow Telecommunication Seminar which will be held at 11.00 (MSK, UTC+03:00), on Thursday, June 4, 2026.
Note: the language of the seminar is Russian.
Join the seminar online: https://telemost.yandex.ru/j/37850448224598
Title: Algorithms for Data Transmission Control in 5G Systems Operating in Multiple Frequency Ranges
Speaker: Maxim Susloparov, HSE University, IITP RAS
Abstract: The rapid development of cloud services, artificial intelligence, video streaming, and virtual reality, causes network traffic volumes to grow exponentially. To improve the quality of service for users of these applications, fifth-generation cellular systems (5G) employ the millimeter-wave frequency range, which enables the use of channels with wide bandwith. However, the channel capacity in this frequency range may vary significantly due to blockages and user mobility. To improve reliability, specifications of 5G systems define the Dual Connectivity feature, which allows users to simultaneously connect to two base stations operating in different frequency ranges. At the same time, algorithms for traffic balancing between base stations and radio resource scheduling are not defined in the specifications. This talk will present the main results of the Ph.D thesis devoted to the development of data transmission control algorithms in 5G networks with simultaneous use of sub-6 GHz and millimeter-wave frequency ranges. In particular, new algorithms for elastic traffic balancing, joint resource scheduling, and real-time multimedia traffic balancing will be discussed.
Bio: Maxim Susloparov graduated with honors from the HSE University, earning a master’s degree in Computer Science and Engineering in 2022. He is currently a researcher at the Wireless Networls lab and plans to defend his Ph.D. thesis under the supervision of Artem Krasilov. Maxim’s research interests include 5G/6G systems, methods for improving quality of service of various types of traffic and increasing efficiency of radio resource utilization in different frequency ranges.