IEEE Access (Jan 2023)

A Detailed Relevance Analysis of Enabling Technologies for 6G Architectures

  • Diego Gabriel Soares Pivoto,
  • Tiberio Tavares Rezende,
  • Michelle Soares Pereira Facina,
  • Rodrigo Moreira,
  • Flavio de Oliveira Silva,
  • Kleber Vieira Cardoso,
  • Sand Luz Correa,
  • Antonia Vanessa Dias Araujo,
  • Rogerio Sousa E. Silva,
  • Heitor Scalco Neto,
  • Gustavo Rodrigues de Lima Tejerina,
  • Antonio Marcos Alberti

DOI
https://doi.org/10.1109/ACCESS.2023.3301811
Journal volume & issue
Vol. 11
pp. 89644 – 89684

Abstract

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As society evolves as a whole, new demands arise with increasingly demanding prerequisites, consequently requiring more significant effort to be met. Such demands cover emerging applications, such as remote surgeries in Smart Health use cases, whose latency and reliability network requirements cannot be met by current communication systems; or simply improving current applications with more challenging requirements to be achieved, such as increasing the transmission rate in a mobile network, offering Quality of Service (QoS), and consequently, better user experience. Therefore, enabling technologies must be chosen to design an appropriate 6G architecture to address such demands. However, the explosion of emerging applications focused on different scopes and requirements to be met makes choosing these enabling technologies extremely complex and unpredictable. Thus, this article aims to create a methodology for analyzing the relevance of enabling technologies and use it to design an optimal architecture capable of meeting the 6G demands. For this purpose, two methods named as Average (AVG) and Analytic Hierarchy Process (AHP) have been selected, whose objective is to determine the relevance of an enabler for the 6G architecture, taking into account different degrees of influencing variables for this analysis, such as adherence to a certain architectural model; popularity in the research area; degree of innovation; synergy with other enablers; and support for requirements. Each of these methods presents a particular result. In the case of the AVG method, the criteria and variables are evaluated independently, and the arithmetic mean is employed to combine the evaluations into a single measure of suitability. In contrast, the AHP method considers the relative importance of criteria and variables in order to classify an optimal set of enabling technologies capable of fulfilling the key roles to be performed by a 6G architecture, and consequently meeting the main 6G demands. Our evaluation provides a unique perspective on 6G enablers, identifying issues and fostering research for future mobile architectures. The results obtained also provide researchers with the necessary information to stay updated on emerging enabling technologies and their suitability for designing new optimized 6G architectures.

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