Satellite communication systems are fundamental components to deploy the future smart and sustainable networks and to achieve the ambitious goal of bringing wireless connectivity anywhere, anytime, at any device. In this new role, one of the main challenges that satellite communication component has to face is the maximization of the spectrum usage. 3GPP communication technologies are extended from Terrestrial Networks (TNs) to Non-Terrestrial Networks (NTNs), but so far the standardisation efforts have been focused on systems where TNs and NTNs operate in their dedicated frequency bands.In this paper, a dynamic spectrum sharing model between NTN elements, in a Non Geostationary orbit, and TN is proposed. A Proof of Concept (PoC) is developed, in order to carry out the interference protection computation. We show that the developed spectrum sharing model can enable spectrum sharing between NTN and TN when their coverage areas do not have to overlap, that the sharing arrangement increases significantly the service coverage in the frequency band and slightly improves the spectrum utilization efficiency. It is also shown that the spectrum management system is able to manage the interference level and to keep the interference-to-noise ratio at the TN user equipment below the specified limit. In fact, the aggregate interference caused by the sharing arrangement does not decrease the capacity of the TN downlink.

Kokkinen, H., Piemontese, A., Reis-Kivinen, A., Kułacz, Ł., Borios, N., Amatetti, C. (2023). Proof of Concept for Spectrum Sharing between Terrestrial and Satellite Networks. 345 E 47TH ST, NEW YORK, NY 10017 USA : IEEE [10.1109/eucnc/6gsummit58263.2023.10188333].

Proof of Concept for Spectrum Sharing between Terrestrial and Satellite Networks

Amatetti, Carla
2023

Abstract

Satellite communication systems are fundamental components to deploy the future smart and sustainable networks and to achieve the ambitious goal of bringing wireless connectivity anywhere, anytime, at any device. In this new role, one of the main challenges that satellite communication component has to face is the maximization of the spectrum usage. 3GPP communication technologies are extended from Terrestrial Networks (TNs) to Non-Terrestrial Networks (NTNs), but so far the standardisation efforts have been focused on systems where TNs and NTNs operate in their dedicated frequency bands.In this paper, a dynamic spectrum sharing model between NTN elements, in a Non Geostationary orbit, and TN is proposed. A Proof of Concept (PoC) is developed, in order to carry out the interference protection computation. We show that the developed spectrum sharing model can enable spectrum sharing between NTN and TN when their coverage areas do not have to overlap, that the sharing arrangement increases significantly the service coverage in the frequency band and slightly improves the spectrum utilization efficiency. It is also shown that the spectrum management system is able to manage the interference level and to keep the interference-to-noise ratio at the TN user equipment below the specified limit. In fact, the aggregate interference caused by the sharing arrangement does not decrease the capacity of the TN downlink.
2023
EuCNC conference
276
281
Kokkinen, H., Piemontese, A., Reis-Kivinen, A., Kułacz, Ł., Borios, N., Amatetti, C. (2023). Proof of Concept for Spectrum Sharing between Terrestrial and Satellite Networks. 345 E 47TH ST, NEW YORK, NY 10017 USA : IEEE [10.1109/eucnc/6gsummit58263.2023.10188333].
Kokkinen, Heikki; Piemontese, Amina; Reis-Kivinen, Arto; Kułacz, Łukasz; Borios, Nathan; Amatetti, Carla
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/963120
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