IEEE Access Special Section Editorial: Complex Network Analysis and Engineering in 5G and Beyond Toward 6G

IEEE Access Special Section Editorial: Complex Network Analysis and Engineering in 5G and Beyond Toward 6G

Modern telecommunication networks represent a large-scale construction and deployment effort, with renovations occurring almost continuously over the course of decades. The resulting networks consist of numerous dimensions, each following its own trajectory of development, commingled into a complex...

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Main Authors: M. Majid Butt, Celso Grebogi, Irene Macaluso, Murilo S. Baptista, Nicola Marchetti, Pedro H. Juliano Nardelli, Robert Hunjet, Lt Col Ryan Thomas
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Online Access:https://ieeexplore.ieee.org/document/9310729/
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spelling doaj-1d3e508f059e47b2866ff4ca9206bc162021-03-30T04:22:44ZengIEEEIEEE Access2169-35362020-01-01822775122775510.1109/ACCESS.2020.30430619310729IEEE Access Special Section Editorial: Complex Network Analysis and Engineering in 5G and Beyond Toward 6GM. Majid Butt0https://orcid.org/0000-0003-2875-1714Celso Grebogi1Irene Macaluso2Murilo S. Baptista3Nicola Marchetti4Pedro H. Juliano Nardelli5Robert Hunjet6Lt Col Ryan Thomas7Nokia Bell Labs, Paris, FranceInstitute for Complex Systems and Mathematical Biology University of Aberdeen, Aberdeen, U.K.Trinity College Dublin, Dublin 2, IrelandInstitute for Complex Systems and Mathematical Biology University of Aberdeen, Aberdeen, U.K.Trinity College Dublin, Dublin 2, IrelandDepartment of Electrical Engineering, LUT University, Lappeenranta, FinlandDefence Science and Technology Group, Edinburgh, SA, AustraliaColorado Springs, U.S. Air Force Academy Air Force Academy, CO, USAModern telecommunication networks represent a large-scale construction and deployment effort, with renovations occurring almost continuously over the course of decades. The resulting networks consist of numerous dimensions, each following its own trajectory of development, commingled into a complex ecosystem. Typical attributes used to characterize networks (e.g., interference, coverage, throughput, robustness, and cost) fail to fully capture a key feature of future wireless networks, namely the degree of organization. This is increasingly important when we consider the trajectory of the evolution of 5G and beyond networks with respect to densification, heterogeneity, and distributed and self-organizing decision-making.https://ieeexplore.ieee.org/document/9310729/
collection DOAJ
language English
format Article
sources DOAJ
author M. Majid Butt
Celso Grebogi
Irene Macaluso
Murilo S. Baptista
Nicola Marchetti
Pedro H. Juliano Nardelli
Robert Hunjet
Lt Col Ryan Thomas
spellingShingle M. Majid Butt
Celso Grebogi
Irene Macaluso
Murilo S. Baptista
Nicola Marchetti
Pedro H. Juliano Nardelli
Robert Hunjet
Lt Col Ryan Thomas
IEEE Access Special Section Editorial: Complex Network Analysis and Engineering in 5G and Beyond Toward 6G
IEEE Access
author_facet M. Majid Butt
Celso Grebogi
Irene Macaluso
Murilo S. Baptista
Nicola Marchetti
Pedro H. Juliano Nardelli
Robert Hunjet
Lt Col Ryan Thomas
author_sort M. Majid Butt
title IEEE Access Special Section Editorial: Complex Network Analysis and Engineering in 5G and Beyond Toward 6G
title_short IEEE Access Special Section Editorial: Complex Network Analysis and Engineering in 5G and Beyond Toward 6G
title_full IEEE Access Special Section Editorial: Complex Network Analysis and Engineering in 5G and Beyond Toward 6G
title_fullStr IEEE Access Special Section Editorial: Complex Network Analysis and Engineering in 5G and Beyond Toward 6G
title_full_unstemmed IEEE Access Special Section Editorial: Complex Network Analysis and Engineering in 5G and Beyond Toward 6G
title_sort ieee access special section editorial: complex network analysis and engineering in 5g and beyond toward 6g
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2020-01-01
description Modern telecommunication networks represent a large-scale construction and deployment effort, with renovations occurring almost continuously over the course of decades. The resulting networks consist of numerous dimensions, each following its own trajectory of development, commingled into a complex ecosystem. Typical attributes used to characterize networks (e.g., interference, coverage, throughput, robustness, and cost) fail to fully capture a key feature of future wireless networks, namely the degree of organization. This is increasingly important when we consider the trajectory of the evolution of 5G and beyond networks with respect to densification, heterogeneity, and distributed and self-organizing decision-making.
url https://ieeexplore.ieee.org/document/9310729/
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