Towards an AI/ML-driven SMO Framework in O-RAN: Scenarios, Solutions, and Challenges

Mohammad Asif Habibi, Bin Han, Merve Saimler, Ignacio Labrador Pavon, Hans D. Schotten
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Abstract

The emergence of the open radio access network (O-RAN) architecture offers a paradigm shift in cellular network management and service orchestration, leveraging data-driven, intent-based, autonomous, and intelligent solutions. Within O-RAN, the service management and orchestration (SMO) framework plays a pivotal role in managing network functions (NFs), resource allocation, service provisioning, and others. However, the increasing complexity and scale of O-RANs demand autonomous and intelligent models for optimizing SMO operations. To achieve this goal, it is essential to integrate intelligence and automation into the operations of SMO. In this manuscript, we propose three scenarios for integrating machine learning (ML) algorithms into SMO. We then focus on exploring one of the scenarios in which the non-real-time RAN intelligence controller (Non-RT RIC) plays a major role in data collection, as well as model training, deployment, and refinement, by proposing a centralized ML architecture. Finally, we identify potential challenges associated with implementing a centralized ML solution within SMO.
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在 O-RAN 中建立人工智能/ML 驱动的 SMO 框架:场景、解决方案和挑战
开放式无线接入网(O-RAN)架构的出现为蜂窝网络管理和服务协调提供了一个范式转变,它利用了数据驱动、基于意图、自主和智能的解决方案。在 O-RAN 中,服务管理和协调(SMO)框架在管理网络功能(NF)、资源分配、服务供应等方面发挥着关键作用。然而,O-RAN 的复杂性和规模不断扩大,需要自主和智能的模型来优化 SMO 的运营。在本手稿中,我们提出了将机器学习(ML)算法集成到 SMO 中的三种方案。然后,我们通过提出一种集中式 ML 架构,重点探索了其中一种方案,在这种方案中,非实时 RAN 智能控制器(Non-RT RIC)在数据收集以及模型训练、部署和完善方面发挥了重要作用。最后,我们确定了在 SMO 中实施集中式 ML 解决方案可能面临的挑战。
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