Informatics and Applications
2025, Volume 19, Issue 3, pp 46-54
MODEL DEVELOPMENT FOR PERFORMANCE OF TRANSMISSION SCHEDULING IN 5G NEW RADIO NETWORKS UNDER SIGNALING AND USER TRAFFIC CONSTRAINTS
- E. S. Sopin
- A. I. Nazarin
- S. Ya. Shorgin
Abstract
The goal of the study is to analyze the trade-off between Physical Downlink Control Channel (PDCCH) and Physical Downlink Shared Channel (PDSCH) resources in 5G NR (New Radio) as the number of subscribers increases. Using stochastic geometry and probability theory methods, the models for Primary Resource Block (PRB) assignment strategies were developed. Subsequently, by applying queueing theory, a model jointly considering subscriber demands for both channels was formulated. Numerical results indicate that with nonsequential PRB assignment, the PDCCH size becomes the bottleneck, while with sequential assignment, a lack of PDCCH resources leads to missed scheduling opportunities. Nonsequential resource assignment potentially allows for increased PDSCH utilization but requires careful tuning of the PDCCH and PDSCH resource ratio. The proposed model enables determining the volume of resources allocated for PDCCH/PDSCH based on user needs, minimizing missed scheduling opportunities and maximizing resource utilization. The numerical investigation revealed that sequential resource assignment in the PDSCH channel leads to a significant degradation in system performance. Furthermore, for effective utilization of the nonsequential resource assignment method, dynamic adjustment of the resources allocated to the PDCCH is required.
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[+] About this article
Title
MODEL DEVELOPMENT FOR PERFORMANCE OF TRANSMISSION SCHEDULING IN 5G NEW RADIO NETWORKS UNDER SIGNALING AND USER TRAFFIC CONSTRAINTS
Journal
Informatics and Applications
2025, Volume 19, Issue 3, pp 46-54
Cover Date
2025-10-10
DOI
10.14357/19922264250306
Print ISSN
1992-2264
Publisher
Institute of Informatics Problems, Russian Academy of Sciences
Additional Links
Key words
5G; millimeter wave; scheduling; resource loss system
Authors
E. S. Sopin  ,  , A. I. Nazarin , and S. Ya. Shorgin
Author Affiliations
Peoples' Friendship University of Russia, 6 Miklukho-Maklaya Str., Moscow 117198, Russian Federation
Federal Research Center "Computer Science and Control" of the Russian Academy of Sciences, 44-2 Vavilov Str., Moscow 119333, Russian Federation
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