Detail publikačního výsledku

Verification of Communication Parameters for NTN Communication

DVOŘÁK, R.; PALUŘÍK, P.; LE, D.; ŠTŮSEK, M.; MAŠEK, P.; MOLTCHANOV, D.; HOŠEK, J.

Originální název

Verification of Communication Parameters for NTN Communication

Anglický název

Verification of Communication Parameters for NTN Communication

Druh

Stať ve sborníku v databázi WoS či Scopus

Originální abstrakt

Non-terrestrial networks (NTNs) are envisioned to extend 5 G coverage globally, with Narrowband IoT (NB-IoT) identified as a key technology for massive machine-type communication in remote or underserved areas. Accurate modeling of the satellite channel is crucial to assess reliability and system performance. This paper presents a comparative study of two widely used NTN propagation models: the ETSI Rician fading model and the ITU-R P. 681 land mobile-satellite model. Using MATLAB simulations of the NB-IoT NPDSCH link in a LEO 1200 km scenario, we evaluate block error rate (BLER) performance across elevation angles from 0° to 90° with varying numbers of repetitions. Results demonstrate that the ETSI Rician model, while simple and analytically tractable, produces overly optimistic BLER predictions at low elevations. In contrast, the ITU-R P. 681 model proved to be more versatile and capable of capturing diverse propagation environments. These findings highlight the importance of model selection for NTN design, particularly in low-elevation and urban scenarios.

Anglický abstrakt

Non-terrestrial networks (NTNs) are envisioned to extend 5 G coverage globally, with Narrowband IoT (NB-IoT) identified as a key technology for massive machine-type communication in remote or underserved areas. Accurate modeling of the satellite channel is crucial to assess reliability and system performance. This paper presents a comparative study of two widely used NTN propagation models: the ETSI Rician fading model and the ITU-R P. 681 land mobile-satellite model. Using MATLAB simulations of the NB-IoT NPDSCH link in a LEO 1200 km scenario, we evaluate block error rate (BLER) performance across elevation angles from 0° to 90° with varying numbers of repetitions. Results demonstrate that the ETSI Rician model, while simple and analytically tractable, produces overly optimistic BLER predictions at low elevations. In contrast, the ITU-R P. 681 model proved to be more versatile and capable of capturing diverse propagation environments. These findings highlight the importance of model selection for NTN design, particularly in low-elevation and urban scenarios.

Klíčová slova

NB-IoT; Non-terrestrial networks; Propagation models; Elevation angle; BLER

Klíčová slova v angličtině

NB-IoT; Non-terrestrial networks; Propagation models; Elevation angle; BLER

Autoři

DVOŘÁK, R.; PALUŘÍK, P.; LE, D.; ŠTŮSEK, M.; MAŠEK, P.; MOLTCHANOV, D.; HOŠEK, J.

Vydáno

03.12.2025

ISBN

979-8-3315-7675-2

Kniha

International Conference on Ultra Modern Telecommunications and Workshops

Periodikum

International Congress on Ultra Modern Telecommunications and Workshops

Stát

Spojené státy americké

Strany od

87

Strany do

93

Strany počet

7

BibTex

@inproceedings{BUT200550,
  author="Radim {Dvořák} and Pavel {Paluřík} and Dinh Thao {Le} and Martin {Štůsek} and Pavel {Mašek} and Dmitri {Moltchanov} and  {} and Jiří {Hošek} and  {}",
  title="Verification of Communication Parameters for NTN Communication",
  booktitle="International Conference on Ultra Modern Telecommunications and Workshops",
  year="2025",
  journal="International Congress on Ultra Modern Telecommunications and Workshops",
  pages="87--93",
  doi="10.1109/ICUMT67815.2025.11268807",
  isbn="979-8-3315-7675-2"
}