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First Flight-Testing of LoRa Modulation in Satellite Radio Communications in Low-Earth Orbit. / Zadorozhny, Alexander M.; Doroshkin, Alexander A.; Gorev, Vasily N. и др.

в: IEEE Access, Том 10, 2022, стр. 100006-100023.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

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@article{3ddea692753e435ca018c3a3f0a5ced5,
title = "First Flight-Testing of LoRa Modulation in Satellite Radio Communications in Low-Earth Orbit",
abstract = "At present, the use of LoRa modulation in satellite radio communications and the construction of a CubeSat constellation for the satellite Internet of Things based on LoRa technology has already begun. However, the limits of applicability of LoRa modulation in low-Earth orbits have not yet been established. This paper presents the results of the first flight tests of LoRa modulation for robustness against the Doppler effect in the satellite-to-Earth radio channel, carried out using a NORBY CubeSat operating at 560 km. Flight tests confirmed the very high immunity of LoRa modulation to the Doppler effect for modes with spreading factor SF ≤ 11 and spread spectrum modulation bandwidth BW > 31.25 kHz. LoRa modulation in these modes can be used in satellite communication without any limitations caused by the Doppler effect. For BW = 31.25 kHz, the LoRa radio channel is affected by the static Doppler effect. Communication with the satellite is possible in this case only at high elevation angles. For SF = 12, the dynamic Doppler effect becomes significant, and communication is possible only at low satellite elevation angles, which leads to the formation of a 'hole' in the center of the coverage area directly below the satellite. In both cases, the duration of the communication session is significantly reduced because of the Doppler effect. In the case of SF = 11 and 12 at BW = 31.25 kHz, both static and dynamic Doppler effect catastrophically affect the LoRa radio channel, so that communication with the satellite becomes impossible.",
keywords = "CubeSat, Doppler effect, LoRa modulation, low-Earth orbit, on-orbit flight test, satellite IoT, satellite radio communication, the Internet of Things",
author = "Zadorozhny, {Alexander M.} and Doroshkin, {Alexander A.} and Gorev, {Vasily N.} and Melkov, {Alexander V.} and Mitrokhin, {Anton A.} and Prokopyev, {Vitaliy Yu} and Prokopyev, {Yuri M.}",
note = "Publisher Copyright: {\textcopyright} 2013 IEEE.",
year = "2022",
doi = "10.1109/ACCESS.2022.3207762",
language = "English",
volume = "10",
pages = "100006--100023",
journal = "IEEE Access",
issn = "2169-3536",
publisher = "Institute of Electrical and Electronics Engineers Inc.",

}

RIS

TY - JOUR

T1 - First Flight-Testing of LoRa Modulation in Satellite Radio Communications in Low-Earth Orbit

AU - Zadorozhny, Alexander M.

AU - Doroshkin, Alexander A.

AU - Gorev, Vasily N.

AU - Melkov, Alexander V.

AU - Mitrokhin, Anton A.

AU - Prokopyev, Vitaliy Yu

AU - Prokopyev, Yuri M.

N1 - Publisher Copyright: © 2013 IEEE.

PY - 2022

Y1 - 2022

N2 - At present, the use of LoRa modulation in satellite radio communications and the construction of a CubeSat constellation for the satellite Internet of Things based on LoRa technology has already begun. However, the limits of applicability of LoRa modulation in low-Earth orbits have not yet been established. This paper presents the results of the first flight tests of LoRa modulation for robustness against the Doppler effect in the satellite-to-Earth radio channel, carried out using a NORBY CubeSat operating at 560 km. Flight tests confirmed the very high immunity of LoRa modulation to the Doppler effect for modes with spreading factor SF ≤ 11 and spread spectrum modulation bandwidth BW > 31.25 kHz. LoRa modulation in these modes can be used in satellite communication without any limitations caused by the Doppler effect. For BW = 31.25 kHz, the LoRa radio channel is affected by the static Doppler effect. Communication with the satellite is possible in this case only at high elevation angles. For SF = 12, the dynamic Doppler effect becomes significant, and communication is possible only at low satellite elevation angles, which leads to the formation of a 'hole' in the center of the coverage area directly below the satellite. In both cases, the duration of the communication session is significantly reduced because of the Doppler effect. In the case of SF = 11 and 12 at BW = 31.25 kHz, both static and dynamic Doppler effect catastrophically affect the LoRa radio channel, so that communication with the satellite becomes impossible.

AB - At present, the use of LoRa modulation in satellite radio communications and the construction of a CubeSat constellation for the satellite Internet of Things based on LoRa technology has already begun. However, the limits of applicability of LoRa modulation in low-Earth orbits have not yet been established. This paper presents the results of the first flight tests of LoRa modulation for robustness against the Doppler effect in the satellite-to-Earth radio channel, carried out using a NORBY CubeSat operating at 560 km. Flight tests confirmed the very high immunity of LoRa modulation to the Doppler effect for modes with spreading factor SF ≤ 11 and spread spectrum modulation bandwidth BW > 31.25 kHz. LoRa modulation in these modes can be used in satellite communication without any limitations caused by the Doppler effect. For BW = 31.25 kHz, the LoRa radio channel is affected by the static Doppler effect. Communication with the satellite is possible in this case only at high elevation angles. For SF = 12, the dynamic Doppler effect becomes significant, and communication is possible only at low satellite elevation angles, which leads to the formation of a 'hole' in the center of the coverage area directly below the satellite. In both cases, the duration of the communication session is significantly reduced because of the Doppler effect. In the case of SF = 11 and 12 at BW = 31.25 kHz, both static and dynamic Doppler effect catastrophically affect the LoRa radio channel, so that communication with the satellite becomes impossible.

KW - CubeSat

KW - Doppler effect

KW - LoRa modulation

KW - low-Earth orbit

KW - on-orbit flight test

KW - satellite IoT

KW - satellite radio communication

KW - the Internet of Things

UR - http://www.scopus.com/inward/record.url?scp=85139450467&partnerID=8YFLogxK

U2 - 10.1109/ACCESS.2022.3207762

DO - 10.1109/ACCESS.2022.3207762

M3 - Article

AN - SCOPUS:85139450467

VL - 10

SP - 100006

EP - 100023

JO - IEEE Access

JF - IEEE Access

SN - 2169-3536

ER -

ID: 38153102