Paola Soto , Miguel Camelo , Ginés García-Avilés , Esteban Municio , Marco Gramaglia , Evangelos Kosmatos , Nina Slamnik-Kriještorac , Danny De Vleeschauwer , Antonio Bazco-Nogueras , Lidia Fuentes , Joaquin Ballesteros , Andra Lutu , Luca Cominardi , Ivan Paez , Sergi Alcalá-Marín , Livia Elena Chatzieleftheriou , Andrés García-Saavedra , Marco Fiore
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They are foundational in shaping the future of networks, collectively forming what is known as Network Intelligence (NI). Prominent Standard-Defining Organizations (SDOs) are integrating NI into future network architectures, particularly emphasizing the closed-loop approach. However, existing methods for seamlessly integrating NI into network architectures are not yet fully effective. This paper introduces an in-depth architectural design for a Network Intelligence Stratum (NI Stratum). This stratum is supported by a novel end-to-end NI orchestrator that supports closed-loop NI operations across various network domains. The primary goal of this design is to streamline the deployment and coordination of NI throughout the entire network infrastructure, tackling issues related to scalability, conflict resolution, and effective data management. We detail exhaustive workflows for managing the NI lifecycle and demonstrate a reference implementation of the NI Stratum, focusing on its compatibility and integration with current network systems and open-source platforms such as Kubernetes and Kubeflow, as well as on its validation on real-world environments. 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引用次数: 0
摘要
随着网络复杂性的升级,人们越来越需要更先进的方法来管理和运行这些网络,重点是提高效率、可靠性和安全性。为此,人们正在开发各种人工智能(AI)/机器学习(ML)模型。这些模型在自动决策、进行预测分析、主动管理网络、提高安全性和优化网络性能方面发挥着关键作用。它们是塑造未来网络的基础,共同构成了所谓的网络智能(NI)。著名的标准定义组织(SDO)正在将 NI 集成到未来的网络架构中,尤其强调闭环方法。然而,将 NI 无缝集成到网络架构中的现有方法尚未完全有效。本文介绍了网络智能层(NI 层)的深入架构设计。该层由一个新颖的端到端 NI 协调器提供支持,该协调器支持跨各种网络域的闭环 NI 操作。该设计的主要目标是在整个网络基础设施中简化 NI 的部署和协调,解决与可扩展性、冲突解决和有效数据管理相关的问题。我们详细介绍了管理 NI 生命周期的详尽工作流程,并演示了 NI Stratum 的参考实现,重点介绍了它与当前网络系统以及 Kubernetes 和 Kubeflow 等开源平台的兼容性和集成性,并在实际环境中进行了验证。本文还概述了部署和管理 NI 的主要挑战和开放问题。
Designing the Network Intelligence Stratum for 6G networks
As network complexity escalates, there is an increasing need for more sophisticated methods to manage and operate these networks, focusing on enhancing efficiency, reliability, and security. A wide range of Artificial Intelligence (AI)/Machine Learning (ML) models are being developed in response. These models are pivotal in automating decision-making, conducting predictive analyses, managing networks proactively, enhancing security, and optimizing network performance. They are foundational in shaping the future of networks, collectively forming what is known as Network Intelligence (NI). Prominent Standard-Defining Organizations (SDOs) are integrating NI into future network architectures, particularly emphasizing the closed-loop approach. However, existing methods for seamlessly integrating NI into network architectures are not yet fully effective. This paper introduces an in-depth architectural design for a Network Intelligence Stratum (NI Stratum). This stratum is supported by a novel end-to-end NI orchestrator that supports closed-loop NI operations across various network domains. The primary goal of this design is to streamline the deployment and coordination of NI throughout the entire network infrastructure, tackling issues related to scalability, conflict resolution, and effective data management. We detail exhaustive workflows for managing the NI lifecycle and demonstrate a reference implementation of the NI Stratum, focusing on its compatibility and integration with current network systems and open-source platforms such as Kubernetes and Kubeflow, as well as on its validation on real-world environments. The paper also outlines major challenges and open issues in deploying and managing NI.
期刊介绍:
Computer Networks is an international, archival journal providing a publication vehicle for complete coverage of all topics of interest to those involved in the computer communications networking area. The audience includes researchers, managers and operators of networks as well as designers and implementors. The Editorial Board will consider any material for publication that is of interest to those groups.