基于无蜂窝的6G网络的高级业务类型分析和基于morl的网络切片配置

IF 7.1 2区计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Vehicular Technology Pub Date : 2025-02-06 DOI:10.1109/TVT.2025.3539090

Navideh Ghafouri;John S. Vardakas;Adlen Ksentini;Christos Verikoukis

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引用次数: 0

摘要

自5G推出以来，网络切片在电信界引起了极大的关注。然而，实现动态和智能的网络切片配置以适应不同的服务类型仍然是高级网络编排中的一个关键挑战。随着具有高度动态和鲁棒性的6G的到来，迫切需要一种智能和切片兼容的分配方法来满足下一代网络不断发展的需求。在这种情况下，本工作引入了一个端到端网络切片框架，该框架跨越了从用户到集中单元的范围，在一个包含开放无线接入网和无单元大规模多输入多输出架构的系统模型中。我们的贡献首先详细回顾了预期的6G关键性能指标及其对网络切片的影响。然后，我们提出了一种利用多目标强化学习（MORL）的新方法，使单个智能代理能够通过统一的训练阶段解决多个服务需求。通过用单个MORL代理替换多个专用代理，我们的方法显著提高了可伸缩性，降低了复杂性，增强了网络切片编排的实用性，同时保持了最佳的系统性能。数值结果验证了该方法的有效性。经过训练的代理不仅保证了不同用户服务请求的服务质量，而且成功地管理了冲突服务类型的共存。这包括在同一网络环境中适应极其可靠和低延迟通信的严格要求以及进一步增强的移动宽带服务。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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High-Level Service Type Analysis and MORL-Based Network Slice Configuration for Cell-Free-Based 6G Networks

Network slicing has garnered significant attention within the telecommunications community since the introduction of 5G. However, achieving dynamic and intelligent network slice configuration to accommodate diverse service types remains a critical challenge in advanced network orchestration. With the advent of 6G, which is characterized by its highly dynamic and robust nature, there is an urgent need for an intelligent and slice-compatible assignment approach to meet the evolving demands of next-generation networks. In this context, this work introduces an end-to-end network slicing framework that spans from the user to the Centralized Unit, within a system model incorporating an Open Radio Access Network and Cell-Free massive Multiple-Input Multiple-Output architecture. Our contribution begins with a detailed review of the anticipated 6G Key Performance Indicators and their implications for network slicing. We then propose a novel approach that leverages Multi-Objective Reinforcement Learning (MORL) to enable a single intelligent agent to address multiple service requirements through a unified training phase. By replacing multiple specialized agents with a single MORL agent, our approach significantly improves the scalability, reduces the complexity, and enhances the practicality of network slicing orchestration—while maintaining optimal system performance. Numerical results validate the effectiveness of the proposed MORL-based solution. The trained agent not only ensures the Quality of Service for diverse user service requests but also successfully manages the coexistence of conflicting service types. This includes accommodating the stringent requirements of Extremely Reliable and Low-Latency Communications alongside Further-Enhanced Mobile Broadband services within the same network environment.

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来源期刊

IEEE Transactions on Vehicular Technology 工程技术-电信学

CiteScore

6.00

自引率

8.80%

发文量

1245

审稿时长

6.3 months

期刊介绍： The scope of the Transactions is threefold (which was approved by the IEEE Periodicals Committee in 1967) and is published on the journal website as follows: Communications: The use of mobile radio on land, sea, and air, including cellular radio, two-way radio, and one-way radio, with applications to dispatch and control vehicles, mobile radiotelephone, radio paging, and status monitoring and reporting. Related areas include spectrum usage, component radio equipment such as cavities and antennas, compute control for radio systems, digital modulation and transmission techniques, mobile radio circuit design, radio propagation for vehicular communications, effects of ignition noise and radio frequency interference, and consideration of the vehicle as part of the radio operating environment. Transportation Systems: The use of electronic technology for the control of ground transportation systems including, but not limited to, traffic aid systems; traffic control systems; automatic vehicle identification, location, and monitoring systems; automated transport systems, with single and multiple vehicle control; and moving walkways or people-movers. Vehicular Electronics: The use of electronic or electrical components and systems for control, propulsion, or auxiliary functions, including but not limited to, electronic controls for engineer, drive train, convenience, safety, and other vehicle systems; sensors, actuators, and microprocessors for onboard use; electronic fuel control systems; vehicle electrical components and systems collision avoidance systems; electromagnetic compatibility in the vehicle environment; and electric vehicles and controls.