8 research outputs found

    Evolution of Non-Terrestrial Networks From 5G to 6G: A Survey

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    Non-terrestrial networks (NTNs) traditionally have certain limited applications. However, the recent technological advancements and manufacturing cost reduction opened up myriad applications of NTNs for 5G and beyond networks, especially when integrated into terrestrial networks (TNs). This article comprehensively surveys the evolution of NTNs highlighting their relevance to 5G networks and essentially, how it will play a pivotal role in the development of 6G ecosystem. We discuss important features of NTNs integration into TNs and the synergies by delving into the new range of services and use cases, various architectures, technological enablers, and higher layer aspects pertinent to NTNs integration. Moreover, we review the corresponding challenges arising from the technical peculiarities and the new approaches being adopted to develop efficient integrated ground-air-space (GAS) networks. Our survey further includes the major progress and outcomes from academic research as well as industrial efforts representing the main industrial trends, field trials, and prototyping towards the 6G networks

    Evolution of Non-Terrestrial Networks From 5G to 6G: A Survey

    Get PDF
    Non-terrestrial networks (NTNs) traditionally have certain limited applications. However, the recent technological advancements and manufacturing cost reduction opened up myriad applications of NTNs for 5G and beyond networks, especially when integrated into terrestrial networks (TNs). This article comprehensively surveys the evolution of NTNs highlighting their relevance to 5G networks and essentially, how it will play a pivotal role in the development of 6G ecosystem. We discuss important features of NTNs integration into TNs and the synergies by delving into the new range of services and use cases, various architectures, technological enablers, and higher layer aspects pertinent to NTNs integration. Moreover, we review the corresponding challenges arising from the technical peculiarities and the new approaches being adopted to develop efficient integrated ground-air-space (GAS) networks. Our survey further includes the major progress and outcomes from academic research as well as industrial efforts representing the main industrial trends, field trials, and prototyping towards the 6G networks

    Aerial Coverage Analysis of Cellular Systems at LTE and mmWave Frequencies Using 3D City Models

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    Cellular connectivity for UAV systems is interesting because it promises coverage in beyond visual line of sight scenarios. Inter-cell interference has been shown to be the main limiting factor at high altitudes. Using a realistic 3D simulator model, with real base station locations, this study confirms that UAVs at high altitudes suffer from significant interference, resulting in a worse coverage compared to ground users. When replacing the existing base stations by mmWave cells, our results indicate that ground coverage is decreased to only 90%, while UAVs just above rooftop level have a coverage probability of 100%. However, UAVs at higher altitude still suffer from excessive interference. Beamforming has the potential to improve mmWave link budget and to decrease interference and is for this reason a promising technology for ensuring connectivity to aerial users.status: Published onlin

    Fixed mmWave Multi-User MIMO: Performance Analysis and Proof-of-Concept Architecture

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    status: accepte

    Aerial Coverage Analysis of Cellular Systems at LTE and mmWave Frequencies Using 3D City Models

    No full text
    Cellular connectivity for UAV systems is interesting because it promises coverage in beyond visual line of sight scenarios. Inter-cell interference has been shown to be the main limiting factor at high altitudes. Using a realistic 3D simulator model, with real base station locations, this study confirms that UAVs at high altitudes suffer from significant interference, resulting in a worse coverage compared to ground users. When replacing the existing base stations by mmWave cells, our results indicate that ground coverage is decreased to only 90%, while UAVs just above rooftop level have a coverage probability of 100%. However, UAVs at higher altitude still suffer from excessive interference. Beamforming has the potential to improve mmWave link budget and to decrease interference and is for this reason a promising technology for ensuring connectivity to aerial users

    UAV Interference to Existing Satellite Services in C-band

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    Cellular connected UAVs can operate in beyond visual line of sight scenarios. However, inter-cell interference has been shown to be the main limiting factor at high altitudes, so that many companies and researchers try to use less congested parts of the radio spectrum. One of the pioneer bands identified in Europe for the early deployment of 5G systems is the 3400-3800 MHz (C-band), which is still relatively free. However, this band is already used in Europe (and elsewhere) for Fixed Satellite Service (FSS). Coexistence with broadband mobile services should be investigated to properly identify operational conditions in real environments. Very Small Aperture Terminals (VSATs) represent an important class of FSS terminals worldwide. Unlike the large Earth stations, they use smaller antennas. VSATs do not require licensing (i.e. their locations are unknown). Moreover, they typically have modest ability for mitigating interference due to the relatively cheap consumer-grade equipment being used. Coexistence of cellular connected UAVs and FSS is not investigated in literature. In this article, we provide useful information to regulatory bodies for defining appropriate rules for coexistence between FSS and UAVs connected to cellular networks. Using a realistic 3D simulator model of a city combined with the state of the art channel models, this study confirms that UAVs create significant interference to FSS. We estimated on-and off-axis separation distances as well as the permissible interference levels allowing functioning of FSS. We defined the minimum separation distances and angles for different interference types (long-and short-term interference).status: accepte

    Evaluation of beamsteering performance in multiuserMIMO unmanned aerial base stations networks

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    Future wireless communication networks can benefit from Unmanned Aerial Base Stations (UABSs) to provide enhanced capacity to ground users (GU) in large and remote locations. Connecting UABSs to the terrestrial network presents several challenges, such as the limited gain traditional antennas need to maintain suitable wireless links between the core network, UABS, and GU. A convenient solution is to use MaMIMO (Massive Multiple Input Multiple Output) since it improves spectral and energy efficiency, thus providing high data rates while reducing power consumption. This paper proposes a Multi-user MIMO (MuMIMO) model for UABS aided networks to increase service range and served capacity. It uses hybrid beamforming and beamsteering on Terrestrial Base Stations (TBSs) and UABSs to grant access to mobile GU in a bicycle race scenario. Results show that using the mobile operators' locations will benefit the backhaul network's performance by duplicating the capacity compared to using a private operator. Furthermore, user coverage increases by 400% if MuMIMO is used, compared to a single beam MaMIMO network. The proposed scenario could achieve a channel efficiency of 6.5 bit/s/Hz in the access network and 8.6 bit/s/Hz in the backhaul network. Finally, the average UABS transmitted power is reduced by 2/3, increasing the number of used beams
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