IEEE Access (Jan 2023)

The Hexa-X Project Vision on Artificial Intelligence and Machine Learning-Driven Communication and Computation Co-Design for 6G

  • Mattia Merluzzi,
  • Tamas Borsos,
  • Nandana Rajatheva,
  • Andras A. Benczur,
  • Hamed Farhadi,
  • Taha Yassine,
  • Markus Dominik Mueck,
  • Sokratis Barmpounakis,
  • Emilio Calvanese Strinati,
  • Dilin Dampahalage,
  • Panagiotis Demestichas,
  • Pietro Ducange,
  • Miltiadis C. Filippou,
  • Leonardo Gomes Baltar,
  • Johan Haraldson,
  • Leyli Karacay,
  • Dani Korpi,
  • Vasiliki Lamprousi,
  • Francesco Marcelloni,
  • Jafar Mohammadi,
  • Nuwanthika Rajapaksha,
  • Alessandro Renda,
  • Mikko A. Uusitalo

DOI
https://doi.org/10.1109/ACCESS.2023.3287939
Journal volume & issue
Vol. 11
pp. 65620 – 65648

Abstract

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This paper provides an overview of the most recent advancements and outcomes of the European 6G flagship project Hexa-X, on the topic of in-network Artificial Intelligence (AI) and Machine Learning (ML). We first present a general introduction to the project and its ambitions in terms of use cases (UCs), key performance indicators (KPIs), and key value indicators (KVIs). Then, we identify the key challenges to realize, implement, and enable the native integration of AI and ML in 6G, both as a means for designing flexible, low-complexity, and reconfigurable networks (learning to communicate), and as an intrinsic in-network intelligence feature (communicating to learn or, 6G as an efficient AI/ML platform). We present a high level description of down selected technical enablers and their implications on the Hexa-X identified UCs, KPIs and KVIs. Our solutions cover lower layer aspects, including channel estimation, transceiver design, power amplifier and distributed MIMO related challenges, and higher layer aspects, including AI/ML workload management and orchestration, as well as distributed AI. The latter entails Federated Learning and explainability as means for privacy preserving and trustworthy AI. To bridge the gap between the technical enablers and the 6G targets, some representative numerical results accompany the high level description. Overall, the methodology of the paper starts from the UCs and KPIs/KVIs, to then focus on the proposed technical solutions able to realize them. Finally, a brief discussion of the ongoing regulation activities related to AI is presented, to close our vision towards an AI and ML-driven communication and computation co-design for 6G.

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