A Multi-Agent Deep Reinforcement Learning Approach for RAN Resource Allocation in O-RAN
Abstract: AI and Machine Learning (ML) are considered as key enablers for realizing the full potential of fifth-generation (5G) and beyond mobile networks, particularly in the context of resource management and orchestration. In this demonstration, we consider a fully-fledged 5G mobile network and develop a multi-agent deep reinforcement learning (DRL) framework for RAN resource allocation. By leveraging local monitoring information generated by a shared gNodeB instance (gNB), each DRL agent aims to optimally allocate radio resources concerning service-specific traffic demands belonging to heterogeneous running services. We perform experiments on the deployed testbed in real-time, showing that DRL-based agents can allocate radio resources fairly while improving the overall efficiency of resource utilization and minimizing the risk of over provisioning.
- O-RAN Alliance, “O-RAN: Towards an Open and Smart RAN,” Tech. Rep., Oct. 2018.
- D. Bega et al., “AZTEC: Anticipatory Capacity Allocation for Zero-Touch Network Slicing,” in Proc. IEEE Conf. Compu. Commun., Jul. 2020.
- F. Rezazadeh, L. Zanzi, F. Devoti, H. Chergui, X. Costa-Pérez, and C. Verikoukis, “On the Specialization of FDRL Agents for Scalable and Distributed 6G RAN Slicing Orchestration,” IEEE Transactions on Vehicular Technology, vol. 72, no. 3, pp. 3473–3487, 2022.
- “AMARI UE Simbox Series,” https://www.amarisoft.com/app/uploads/2021/12/AMARI-UE-Simbox-E-Series.pdf, 2023, [Online; accessed 2023-01-05].
- “AMARI Callbox Ultimate,” https://www.amarisoft.com/app/uploads/2022/10/AMARI-Callbox-Ultimate.pdf, 2023, [Online; accessed 2023-01-05].
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