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1.中国科学技术大学信息科学技术学院,安徽 合肥 230026
2.之江实验室,浙江 杭州 311121
[ "吴剑松(1997- ),男,中国科学技术大学信息科学技术学院硕士生,主要研究方向为计算机网络。" ]
[ "谭小彬(1973- ),男,博士,中国科学技术大学信息科学技术学院副教授,主要研究方向为未来网络架构、智能网络和多媒体通信。" ]
[ "袁莘智(1998- ),男,中国科学技术大学信息科学技术学院博士生,主要研究方向为计算机网络。" ]
[ "琚可欣(2002- ),女,中国科学技术大学信息科学技术学院硕士生,主要研究方向为计算机网络。" ]
[ "骆汉光(1988- ),男,博士,之江实验室副研究员,主要研究方向为新型网络、网络安全等。" ]
收稿日期:2024-11-14,
修回日期:2025-01-05,
纸质出版日期:2025-04-20
移动端阅览
吴剑松,谭小彬,袁莘智等.流数据驱动的多模态网络转发[J].电信科学,2025,41(04):95-106.
WU Jiansong,TAN Xiaobin,YUAN Shenzhi,et al.Streaming data-driven forwarding in polymorphic network[J].Telecommunications Science,2025,41(04):95-106.
吴剑松,谭小彬,袁莘智等.流数据驱动的多模态网络转发[J].电信科学,2025,41(04):95-106. DOI: 10.11959/j.issn.1000-0801.2025047.
WU Jiansong,TAN Xiaobin,YUAN Shenzhi,et al.Streaming data-driven forwarding in polymorphic network[J].Telecommunications Science,2025,41(04):95-106. DOI: 10.11959/j.issn.1000-0801.2025047.
近年来通信技术发展迅速,传统传输控制协议/因特网互联协议(transmission control protocol/Internet protocol,TCP/IP)网络瘦腰结构的弊端凸显,新网络架构协议相继被提出,多种模态网络将长期共存。传统的网络转发方案难以适应多模态网络的动态变化特性,且存在时延高、成本高等问题。基于此,提出了一种流数据驱动的多模态网络转发方案和基于强化学习的多模态网络转发算法。针对多模态网络动态变化的特点,设计了基于可编程数据平面的多模态网络转发方案。该方案包含负责网络信息采集的带内网络遥测(in-band network telemetry,INT)采集模块、解析和过滤网络流的网络流处理模块、识别和分流多模态网络流的模态处理模块、提供网络功能的服务功能模块、负责转发的数据转发模块、用于数据缓存的缓存模块,以及生成和下发转发策略的节点控制模块。利用编写协议无关的包处理器(programming protocol-independent packet processor,P4)编程语言协议无关的特性,该方案可以支持多个网络模态的共生共存,且通过可编程交换机硬件可以有效提高转发效率。同时,针对可编程交换机通过表的方式进行数据更新的特点,提出了基于强化学习的多模态网络转发算法,并针对可编程硬件限制进行适配,根据多模态网络流的状态,为流选择合适的转发端口,以实现多模态网络的高效转发。在未来网络试验设施(China Environment for Network Innovation,CENI)中完成了转发算法的实现和测试,验证了所提算法的有效性。
In recent years
rapid advancements in communication technology have highlighted the shortcomings of the traditional transmission control protocol/Internet protocol (TCP/IP) network architecture. New network architecture protocols have been proposed in response to the evolving landscape
where multiple modal networks are expected to coexist for an extended period. Traditional network forwarding solutions struggle to adapt to the dynamic nature of polymorphic network
leading to issues such as high latency and costs. Based on this
a flow data-driven polymorphic network forwarding scheme and a reinforcement learning-based algorithm tailored for polymorphic network were proposed. Addressing the dynamic nature of polymorphic network
a polymorphic network forwarding scheme based on programmable data planes was proposed. This scheme comprised the in-band network telemetry (INT) collection module responsible for network information gathering
the network flow processing module for parsing and filtering network flows
the modal processing module for identifying and routing polymorphic network flows
the service function module for providing network functions
the data forwarding module for routing data
the cache module for data storage
and the node control module for generating and deploying forwarding strategies. Leveraging the protocol-independent nature of the programming protocol-independent packet processors (P4) programming language
this scheme facilitated the coexistence of multiple network modes and enhances forwarding efficiency through programmable switch hardware. Furthermore
considering the data update mechanism of programmable switches using tables
a reinforcement learning-based algorithm for polymorphic network forwarding was proposed. Adapting to the constraints of programmable hardware
this algorithm selects appropriate forwarding ports based on the state of polymorphic network flows to achieve efficient forwarding. Finally
the implementation and testing of the forwarding algorithm was conducted in China Environment for Network Innovation (CENI)
validating the effectiveness of the algorithm.
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