Cross-domain 5G network management for seamless industrial communications

With the wide adoption of edge compute infrastructures, an opportunity has arisen to deploy part of the functionality at the edge of the network to enable a localized connectivity service. This development is also supported by the adoption of “on-premises” local 5G networks addressing the needs of different vertical industries and by new standardized infrastructure services such as Mobile Edge Computing (MEC). This article introduces a comprehensive set of deployment options for the 5G network and its network management, complementing MEC with the connectivity service and addressing different classes of use cases and applications. We have also practically implemented and tested the newly introduced options in the form of slices within a standard-based testbed. Our performed validation proved their feasibility and gave a realistic perspective on their impact. The qualitative assessment of the connectivity service gives a comprehensive overview on which solution would be viable to be deployed for each vertical market and for each large-scale operator situation, making a step forward towards automated distributed 5G deployments.

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A Unified Framework for 5G Network Management Tools

2018 IEEE 11th Conference on Service-Oriented Computing and Applications (SOCA) ◽

10.1109/soca.2018.00013 ◽

2018 ◽

Cited By ~ 1

Author(s):

Jukka K. Nurminen ◽

Harrison Mfula

Keyword(s):

Network Management ◽

Unified Framework ◽

Management Tools ◽

5G Network

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Virtualização em Redes Terrestre-Satélite 5G

10.5753/wslice.2019.7723 ◽

2019 ◽

Author(s):

Antonio Marcos Alberti ◽

Karine Costa ◽

Tibério Tavares Tavares Rezende

Keyword(s):

Performance Analysis ◽

Network Management ◽

European Commission ◽

Use Cases ◽

Network Architectures ◽

5G Network ◽

Terrestrial Network

In order to propose a hybrid terrestrial-satellite architecture for the 5G infrastructure in Brazil, it is sought to discover and understand the resources and tools used in the simulation or emulation of these network architectures for performance analysis purposes when evaluating various technological interoperability scenarios. Based on the main projects of the European Commission H2020 and standardization organizations of the 5G network, such as 3GPP, ETSI, ITU, among others, this article investigates how the standardization and implementation of 5G terrestrial network management and virtualization technologies are being applied. It highlights the use cases and the tools used in their investigations.

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Cross-domain certificateless authenticated group key agreement protocol for 5G network slicings

Telecommunication Systems ◽

10.1007/s11235-020-00673-x ◽

2020 ◽

Vol 74 (4) ◽

pp. 437-449

Author(s):

Ming Luo ◽

Jiayu Wu ◽

Xiangjun Li

Keyword(s):

Key Agreement ◽

Group Key ◽

Group Key Agreement ◽

Key Agreement Protocol ◽

Cross Domain ◽

5G Network ◽

Authenticated Group Key ◽

Group Key Agreement Protocol

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StaRe: Statistical Reasoning Tool for 5G Network Management

The Semantic Web - Lecture Notes in Computer Science ◽

10.1007/978-3-319-47602-5_5 ◽

2016 ◽

pp. 21-25 ◽

Cited By ~ 3

Author(s):

Kasper Apajalahti ◽

Eero Hyvönen ◽

Juha Niiranen ◽

Vilho Räisänen

Keyword(s):

Network Management ◽

Statistical Reasoning ◽

5G Network

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5G Numerologies Assessment for URLLC in Industrial Communications

Sensors ◽

10.3390/s21072489 ◽

2021 ◽

Vol 21 (7) ◽

pp. 2489

Author(s):

David Segura ◽

Emil J. Khatib ◽

Jorge Munilla ◽

Raquel Barco

Keyword(s):

Multipath Propagation ◽

Radio Link ◽

Concrete Walls ◽

Service Category ◽

Fifth Generation ◽

Main Challenge ◽

5G Network ◽

The Impact ◽

Industrial Communications ◽

Control Service

The fifth-generation (5G) network is presented as one of the main options for Industry 4.0 connectivity. Ultra-Reliable and Low Latency Communications (URLLC) is the 5G service category used by critical mechanisms, with a millisecond end-to-end delay and reduced probability of failure. 5G defines new numerologies, together with mini-slots for a faster scheduling. The main challenge of this is to select the appropriate numerology according to radio conditions. This fact is very important in industrial scenarios, where the fundamental problems are interference and multipath propagation, due to the presence of concrete walls and large metallic machinery and structures. Therefore, this paper is focused on analyzing the impact of the numerology selection on the delay experienced at radio link level for a remote-control service. The study, which has been carried out in a simulated cellular factory environment, has been performed for different packet sizes and channel conditions, focusing on outliers. Evaluation results show that not always a higher numerology, with a shorter slot duration, is appropriate for this type of service, particularly under Non-Line-of-Sight (NLOS) conditions.

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