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Optimization of 5G throughput and latency in non-standalone and standalone mode

Adel Bouzid Belguidoum (), Mohamed Lamine Tounsi () and Slimane Mekaoui ()
Additional contact information
Adel Bouzid Belguidoum: USTHB University
Mohamed Lamine Tounsi: USTHB University
Slimane Mekaoui: USTHB University

Telecommunication Systems: Modelling, Analysis, Design and Management, 2025, vol. 88, issue 1, No 30, 21 pages

Abstract: Abstract In this paper, different algorithms related to 5G throughput and latency procedures for Non-Standalone (NSA) and Standalone (SA) modes are developed. The 5G throughput and latency are improved by reducing the bad radio link quality and by optimizing the 5G parameters configuration of the frame structure, which decides how many slots and symbols are available for data transmissions and how many slots are used for signaling overhead. This will require an improvement of signal interference noise ratio (SINR), Bloc Error Rate (BLER), modulation coding scheme (MCS), and choosing the best setting for the new radio (NR) frame structure. To achieve the target of ultra-low latency, we also need to decrease the congestion of the network by optimizing the Quality of Service- based scheduling and network slicing features. The objective is to improve both key performance indicators (KPIs), throughput, and latency, and reach the target KPIs by tuning the main 5G radio parameters for NSA and SA networks.

Keywords: 5G; Frame structure; MCS; NR; KPIs (search for similar items in EconPapers)
Date: 2025
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DOI: 10.1007/s11235-025-01265-3

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