High Level 5g Ntn Architectures For The Indirect Access Backhauling

High Level 5g Ntn Architectures For The Indirect Access Backhauling High level 5g ntn architectures for the indirect access (backhauling) and the direct access. the direct access architecture utilizes the nr waveform on both, feeder link and service link. a direct access ue is sending data over the satcom link without relay in between. geo satellites (fig. 1) can play a role in the future 5g 6g infrastructure [5]. Indirect access (backhauling) direct access gnb core network feeder link service link feeder link service link fig. 2. high level 5g ntn architectures for the indirect access (backhauling) and the direct access. the direct access architecture utilizes the nr waveform on both, feeder link and service link. a direct access ue is sending data over.

High Level 5g Ntn Architectures For The Indirect Access Backhauling High level 5g ntn architectures for the indirect access (backhauling) and the direct access. the direct access architecture utilizes the nr waveform on both, feeder link and service link. High level 5g ntn architectures for the indirect access (backhauling) and the direct access. the direct access architecture utilizes the nr waveform on both, feeder link and service link. High level architecture of the 5g goa demonstrator is shown in figure 2. iii. openairinterface extension for 5g satellite links (5g leo) the 5g leo [5] project is an extension of 5g goa for low earth orbit (leo) satellites, where we target direct access to 5g via transparent leo satellites. likewise, in 5g goa,. Based on the radio access architecture and interfaces described in 3gpp tr 38.801, [43], a set of architecture options has been defined within the ntn study item, as per tr 38.811, [9]. the impact of the ntn environment on the technologies developed for terrestrial nr systems is strictly linked to the scenarios and architectures under.

High Level 5g Ntn Architectures For The Indirect Access Backhauling High level architecture of the 5g goa demonstrator is shown in figure 2. iii. openairinterface extension for 5g satellite links (5g leo) the 5g leo [5] project is an extension of 5g goa for low earth orbit (leo) satellites, where we target direct access to 5g via transparent leo satellites. likewise, in 5g goa,. Based on the radio access architecture and interfaces described in 3gpp tr 38.801, [43], a set of architecture options has been defined within the ntn study item, as per tr 38.811, [9]. the impact of the ntn environment on the technologies developed for terrestrial nr systems is strictly linked to the scenarios and architectures under. Gap, this paper analyzes 5g non terrestrial networks with satellite backhaul links, proposing some key architectures and the related protocol adaptations. a satellite link analysis and a system level throughput evaluation are also carried out in some reference scenarios, considering the most recent 5g related aspects to assess. As the telecommunications industry embarks on the transition to sixth generation (6g) networks, this paper examines the integration of non terrestrial networks (ntn), and in particular satellite backhauling, in the context of fifth generation (5g) systems. the integrated access and backhaul (iab) technology, conceived as a wireless terrestrial.