Resilient and Latency-aware Orchestration of Network Slices Using Multi-connectivity in MEC-enabled 5G Networks.

Network slicing (NS) and multi-access edge computing (MEC) are new paradigms which play key roles in 5G and beyond networks. ... In this paper, we present a novel approach based on multi-connectivity in 5G networks to tackle this problem and our proposed approach is resilient against i) failure of VNFs, ii) failure of local servers ... In this work, we propose a resilient and latency-aware NS deployment strategy in multi-connectivity and MEC-enabled 5G networks to provide high resiliency against multiple network component failures, improve ...

doi:10.1109/tnsm.2021.3091053 fatcat:hkxhmleg6bbnna2hkirjxouwdq

Multiple Versions

The emergence of Multi-Access Edge Computing (MEC) technology aims at extending cloud computing capabilities to the edge of the wireless access networks. ... Our goal is to provide the associativity between MEC and these five driving technologies in 5G context while identifying the open challenges, future directions, and tangible integration paths. ... ACKNOWLEDGMENT This work has been performed under the framework of 6Genesis Flagship (grant 318927) which is funded by the Academy of Finland. ...

arXiv:1810.00827v1 fatcat:ws7mlwyn3zfatoffzgh5exmc2y

), that will propel and intensify the integration of MEC IoT in 5G networks. ... Thus, MEC-enabled 5G wireless systems are envisaged to offer real-time, low-latency, and high-bandwidth access to the radio network resources. ... Fig. 2 . 2 MEC in NFV Architecture [3] . Fig. 3 . 3 Use of Network Slicing and MEC in different 5G-IoT applications. as NFV. ...

doi:10.1016/j.icte.2021.05.007 fatcat:yabezlyxwzchxftgqxackcc3ni

DOAJ

Additionally, the article presents the management and orchestration of network slices in a single domain followed by a comprehensive survey of management and orchestration approaches in 5G network slicing ... Secondly, we provide a tutorial of 5G network slicing technology enablers including SDN, NFV, MEC, cloud/Fog computing, network hypervisors, virtual machines & containers. ... Acknowledgment This work was supported in part by the CONNECT Research Centre through Science Foundation Ireland, and in part by the European Regional Development Fund under Grant 13/RC/2077. ...

doi:10.1016/j.comnet.2019.106984 fatcat:3nsqvuiwzndcbprctjfgmu6cdu

Open Access Multiple Versions

We overview the state-of-the-art in MEC slicing, distributed robotic systems and blockchain technology to define a framework for services the MEC layer that will enhance the autonomous operations of connected ... Blockchains will enable a transparent and secure way of providing services and managing resources at the Multi-Access Edge Computing (MEC) layer. ... ACKNOWLEDGEMENTS This work was supported by the Academy of Finland's AutoSOS project with grant number 328755, the NSFC grant number 61876039, and the Shanghai Platform for Neuromorphic and AI Chips (NeuHeilium ...

arXiv:2007.01156v1 fatcat:rmwqquu2qbhwlonqxrrestzc4u

Multi-access Edge Computing (MEC) is a key solution that enables operators to open their networks to new services and IT ecosystems to leverage edge-cloud benefits in their networks and systems. ... We also discuss SDN, NFV, SFC and network slicing as MEC enablers. Then, we provide a state-of-the-art study on the different approaches that optimize the MEC resources and its QoS parameters. ... Authors of [104] proposed in a MEC orchestration/management architecture enabled 5G network slicing. ...

doi:10.1109/access.2020.3034136 fatcat:ncqn7le65jfshcqnqzy7twrwwu

DOAJ

Subsequently, the paper emphasises the design and prototyping of a media-centric eHealth use case, focusing on a set of innovative enablers towards achieving end-to-end QoS-aware network slicing capabilities ... Index Terms-5G, network slicing, Quality of Service, eHealth, media use case, verticals. ... QoS-Aware Data Plane for Slicing To achieve QoS-aware data plane in the 5G non-RAN segments (e.g., MEC, MEC to CN, and CN), we have prototyped a slicing-friendly infrastructure especially a programmable ...

doi:10.1109/tbc.2019.2901402 fatcat:5ano6dnutngzvdkyajpnmchxay

Citation

Qi Wang, Jose Alcaraz-Calero, Ruben Ricart-Sanchez, Maria Barros Weiss, Anastasius Gavras, Navid Nikaein, Xenofon Vasilakos, Bernini Giacomo, Giardina Pietro, Mark Roddy, Michael Healy, Paul Walsh, Thuy Truong, Zdravko Bozakov, Konstantinos Koutsopoulos, Pedro Neves, Cristian Patachia-Sultanoiu, Marius Iordache, Elena Oproiu, Imen Grida Ben Yahia, Ciriaco Angelo, Cosimo Zotti, Giuseppe Celozzi, Donal Morris, Ricardo Figueiredo, Dean Lorenz, Salvatore Spadaro, George Agapiou, Ana Aleixo, Cipriano Lomba. "Enable Advanced QoS-Aware Network Slicing in 5G Networks for Slice-Based Media Use Cases." IEEE transactions on broadcasting 65.2 (2019) 1-10

In particular, this deliverable covers three aspects of the network, namely, i) radio access network, ii) core network, and iii) slicing and orchestration. ... In short, this deliverable targets at explaining the state of the current technologies applied to internet-of-things (IoT) networks and the planned innovations of iNGENIOUS. ... Naturally, the concept of such network requires a new level of flexibility, reconfigurability, resilience and resource awareness. ...

doi:10.5281/zenodo.4836190 fatcat:n2mbow4mfvdbxerghlspp3klke

Open Access

Citation

Roberto Bomfin, Ivo Bizon, Ahmad Nimr, Christos Politis, Juan José Garrido Serrato, Miguel Cantero, Manuel Fuentes, David Martín-Sacristán, Gino Ciccone, Giuseppina Carpentieri, Anton Luca Robustelli, Jose Costa-Requena, José Luis Cárcel, Pietro Piscione, Erin Elizabeth Seder, Giacomo Bernini, Eddy Higgins, Jahveen Davis, Shane Bunyan, Javier Renart, Nuria Molner. "Multi-Technologies Network for IoT." Zenodo (2021)

IoT is identified as a key use case of MEC, given MEC's ability to provide cloud platform and gateway services at the network edge. ... The emergence of Multi-Access Edge Computing (MEC) technology aims at extending cloud computing capabilities to the edge of the radio access network, hence providing real-time, high-bandwidth, low-latency ... MEC will play a vital role in enabling future IIoT applications [96] by addressing the shortcomings of M2M communication (e.g. latency, resilience, cost, peer-to-peer, connectivity, security) in IIoT ...

doi:10.1109/comst.2018.2849509 fatcat:fnksr3dbqfakzfvnopyyxjdlfm

Multiple Versions

Since then, this effort continuously captured the technology trends as developed by the different phases of 5G PPP projects: the first phase (Phase I), that laid the foundation of the network slicing-aware ... The overall goal of the Architecture Working Group (WG) within the 5G PPP Initiative is to consolidate the main technology enablers and the bleeding-edge design trends in the context of the 5G Architecture ... Although NC has been extensively used to enable protection against link failures, its application in resilient 5G networks has not been proposed before. ...

doi:10.5281/zenodo.5155657 fatcat:xbjiccshe5cnvfurrh345dynue

Open Access

The 5G-MoNArch project will consolidate the developments and standardization progress in the area of 5G network architecture and network slicing, and will implement and deploy two testbeds along the requirements ... 5th generation mobile networks (5G) aim at ena-bling a large variety of applications, services and use cases for vertical industries and markets. ... The network functions aiming at a resilient network behavior, e.g., in case of an impairment of radio conditions, will incorporate techniques such as network coding and multi-connectivity. ...

doi:10.5281/zenodo.3269378 fatcat:yt4vuuwjkzb2liyygldnkmrbvi

Open Access

Since the 5G network slice is end-to-end, most of the common methods related to slice management are connected to the management of the enabling technologies in the category network support, such as EDGE ... communication networks (coding, context awareness, EDGE enhancements and multi-connectivity). ...

doi:10.1109/access.2020.3032726 fatcat:phqvszno3ndpxas4jraicgpbsi

DOAJ

It elaborates MEC orchestration considering both individual services and a network of MEC platforms supporting mobility, bringing light into the different orchestration deployment options. ... Multi-access edge computing (MEC) is an emerging ecosystem, which aims at converging telecommunication and IT services, providing a cloud computing platform at the edge of the radio access network. ... Online gaming can also benefit from MEC assisted application-awareness to ensure high bandwidth and strict latency alongside an on-demand powerful multi-player gaming engine in terms of processing and ...

doi:10.1109/comst.2017.2705720 fatcat:spzgg3fudvgbfo4fme6cigqh6m

The views and conclusions being expressed are those of the authors, and have not been sponsored, approved, or necessarily endorsed by members of the consortium. ... ACKNOWLEDGMENTS This work was partially funded by the blueSPACE and 5G-PHOS 5G PPP phase 2 projects, which have received funding from the European Union's Horizon 2020 programme under grant agreements ... The end-to-end 5G automotive ecosystem can handle system and networking interoperability, handover between mobile cells, MEC capabilities including slicing, service orchestration, and security. ...

doi:10.1117/12.2548146 fatcat:dkkiwkjq2nbkboy7zvupbmi5ca

Performance, Interoperability, and Scalability Issues Reconfiguring network slices to accommodate 5G connectivity for multiple needs or users is a challenging task due to the potentially large number of ... The eighteenth article proposes an edge cloud-enabled sidelink radio resource management (RRM) framework to support co-operative automated driving (CAD) use cases in 5G networks. ...

doi:10.1109/jsac.2020.2986960 fatcat:3io4qsjas5dvfktgjo7tx7euti

Resilient and Latency-aware Orchestration of Network Slices Using Multi-connectivity in MEC-enabled 5G Networks

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Enable Advanced QoS-Aware Network Slicing in 5G Networks for Slice-Based Media Use Cases

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