Caglar Tunc, Kubra Duran, Buse Bilgin, Gokhan Kalem, Berk Canberk
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引用次数: 0
摘要
超越 5G (B5G) 和 6G 网络的出现凸显了先进计算机辅助工具(如网络数字孪生(DT)、自主网络信息ostering 和泛在智能)的重要作用。DT 领域的现有解决方案主要旨在对网络生命周期内的特定任务进行建模和自动化,缺乏灵活性和适应性,无法实现完全自主的设计和管理。与现有的 DT 方法不同,我们提出使用数字孪生(DTRAN)框架进行 RAN 优化,该框架采用从核心到边缘网络的整体方法。拟议的 DTRAN 框架可实现实时数据管理以及与物理网络的通信,从而提供比现有方法更准确、更详细的数字副本。我们概述了 DTRAN 的主要构建模块,并描述了我们的特定用例(即 RAN 配置优化)的细节,以演示所提框架在现实世界场景中的适用性。
DTRAN: A Special Use Case of RAN Optimization using Digital Twin
The emergence of beyond 5G (B5G) and 6G networks underscores the critical
role of advanced computer-aided tools, such as network digital twins (DTs), in
fostering autonomous networks and ubiquitous intelligence. Existing solutions
in the DT domain primarily aim to model and automate specific tasks within the
network lifecycle, which lack flexibility and adaptability for fully autonomous
design and management. Unlike the existing DT approaches, we propose RAN
optimization using the Digital Twin (DTRAN) framework that follows a holistic
approach from core to edge networks. The proposed DTRAN framework enables
real-time data management and communication with the physical network, which
provides a more accurate and detailed digital replica than the existing
approaches. We outline the main building blocks of the DTRAN and describe the
details of our specific use case, which is RAN configuration optimization, to
demonstrate the applicability of the proposed framework for a real-world
scenario.