Multi-Connectivity for 5G Networks and Beyond: A Survey

Multi-Connectivity for 5G Networks and Beyond: A Survey

To manage a growing number of users and an ever-increasing demand for bandwidth, future 5th Generation (5G) cellular networks will combine different radio access technologies (cellular, satellite, and WiFi, among others) and different types of equipment (pico-cells, femto-cells, small-cells, macro-c...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Vol. 22; no. 19; p. 7591
Main Authors: Sylla, Tidiane, Mendiboure, Leo, Maaloul, Sassi, Aniss, Hasnaa, Chalouf, Mohamed Aymen, Delbruel, Stéphane
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 07-10-2022
MDPI
Subjects:
5G mobile communication
5G networks
Access control
Agriculture
Bandwidths
Cellular radio
Computer Science
Connectivity
Energy efficiency
fairness
Mobility management
multi-connectivity
quality of service
Quality of service architectures
Radio equipment
Reference Standards
Review
Satellite communications
Satellites
Spectrum allocation
Surveys
Taxonomy
Traffic congestion
user association
Wi-Fi
Wireless networks
Wireless telecommunications equipment
France
New Jersey
Germany
fairness
multi-connectivity
energy efficiency
mobility management
quality of service
5G networks
spectrum management
user association
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Summary:To manage a growing number of users and an ever-increasing demand for bandwidth, future 5th Generation (5G) cellular networks will combine different radio access technologies (cellular, satellite, and WiFi, among others) and different types of equipment (pico-cells, femto-cells, small-cells, macro-cells, etc.). Multi-connectivity is an emerging paradigm aiming to leverage this heterogeneous architecture. To achieve this, multi-connectivity proposes to enable UE to simultaneously use component carriers from different and heterogeneous network nodes: base stations, WiFi access points, etc. This could offer many benefits in terms of quality of service, energy efficiency, fairness, mobility, and spectrum and interference management. Therefore, this survey aims to present an overview of multi-connectivity in 5G networks and beyond. To do so, a comprehensive review of existing standards and enabling technologies is proposed. Then, a taxonomy is defined to classify the different elements characterizing multi-connectivity in 5G and future networks. Thereafter, existing research works using multi-connectivity to improve the quality of service, energy efficiency, fairness, mobility management, and spectrum and interference management are analyzed and compared. In addition, lessons common to these different contexts are presented. Finally, open challenges for multi-connectivity in 5G networks and beyond are discussed.
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These authors contributed equally to this work.
ISSN:1424-8220
1424-8220
DOI:10.3390/s22197591