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Autores principales: Liebhart, Rainer, Shafi, Mansoor, Tataria, Harsh, Shivanandan, Gajan, Chandramouli, Devaki
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2411.18836
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author Liebhart, Rainer
Shafi, Mansoor
Tataria, Harsh
Shivanandan, Gajan
Chandramouli, Devaki
author_facet Liebhart, Rainer
Shafi, Mansoor
Tataria, Harsh
Shivanandan, Gajan
Chandramouli, Devaki
contents Mobile communications have been undergoing a generational change every ten years. While 5G network deployments are maturing, significant efforts are being made to standardize 6G, which is expected to be commercially introduced by 2030. This paper provides unique perspectives on the 6G network (radio and core) architecture(s) from the anticipated 6G use cases to meet the necessary performance requirements. To cater for the key 6G use cases, the 6G architecture must integrate different network-level functions in a multiplicity of virtual cloud environments, leveraging the advancements of distributed processing, artificial intelligence, and securely integrating different sub-networks e.g., terrestrial, and non-terrestrial networks into the overall 6G network. This paper characterizes the impact of 6G architectures from a deployment perspective with backwards compatibility in mind.
format Preprint
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institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Perspectives on 6G Architectures
Liebhart, Rainer
Shafi, Mansoor
Tataria, Harsh
Shivanandan, Gajan
Chandramouli, Devaki
Networking and Internet Architecture
Information Theory
Mobile communications have been undergoing a generational change every ten years. While 5G network deployments are maturing, significant efforts are being made to standardize 6G, which is expected to be commercially introduced by 2030. This paper provides unique perspectives on the 6G network (radio and core) architecture(s) from the anticipated 6G use cases to meet the necessary performance requirements. To cater for the key 6G use cases, the 6G architecture must integrate different network-level functions in a multiplicity of virtual cloud environments, leveraging the advancements of distributed processing, artificial intelligence, and securely integrating different sub-networks e.g., terrestrial, and non-terrestrial networks into the overall 6G network. This paper characterizes the impact of 6G architectures from a deployment perspective with backwards compatibility in mind.
title Perspectives on 6G Architectures
topic Networking and Internet Architecture
Information Theory
url https://arxiv.org/abs/2411.18836