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1. 华为技术有限公司西安研究所,陕西 西安 710077
2. 华为技术有限公司上海研究所,上海 201206
Published Online:2022-04,
Published:20 April 2022
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Shufeng SHI, Youyang YU. Multi-access, wireless and wired convergence architecture evolution and traffic scheduling mechanism[J]. Telecommunications science, 2022, 38(4): 146-155.
Shufeng SHI, Youyang YU. Multi-access, wireless and wired convergence architecture evolution and traffic scheduling mechanism[J]. Telecommunications science, 2022, 38(4): 146-155. DOI: 10.11959/j.issn.1000-0801.2022057.
3GPP 5G网络架构在3GPP Rel-16版本定义了无线有线融合架构,即固移融合网络架构,并重点研究此融合架构下的多个价值场景。其中,有线与无线混合接入场景备受关注,同时 3GPP 标准定义了此场景下的多接入流量调度机制。对此进行了详细论述,包括基本的多接入流量调度机制、增强5G-Adanced网络支持UDP业务流和以太业务流的包粒度分流机制以及新的冗余传输模式,并扩展4G和5G互通场景以支持3GPP接入5GC和非3GPP接入EPC的混合网络流量调度。
In 3GPP Rel-16
3GPP 5G network architecture defines the wireless and wired converged architecture
that is
fixed and mobile converged network architecture
focusing on multiple valuable scenarios of this converged architecture
where the wired and wireless hybrid access scenario attracts much attention.The standard defines the multi-access traffic scheduling mechanism in this scenario.It was discussed in detail
including basic multi-access traffic scheduling mechanisms
enhanced the traffic splitting per packet mechanisms for UDP and Ethernet traffic flows for 5G-Advanced networks
and a new redundant transmission modes.In addition
4G and 5G interworking scenarios were extended to support hybrid network traffic scheduling for 3GPP access to 5GC and non-3GPP access to EPC.
3GPP . System architecture for the 5G system; stage 2:TS 23.501 [S ] . 2019 .
3GPP . Procedures for the 5G system; stage 2:TS 23.502 [S ] . 2019 .
3GPP . Policy and charging control framework for the 5G system:TS 23.503 [S ] . 2019 .
3GPP . Wireless and wireline convergence access support for the 5G system(5GS):TS 23.316 [S ] . 2020 .
BBF . AGF functional requirements:TR-456 issue 1 [S ] . 2020 .
3GPP . 3GPP system - fixed broadband access network interworking; stage 2:TS 23.139 [S ] . 2020 .
IETF . QUIC:a UDP-based multiplexed and secure transport:RFC 9000 [S ] . 2021 .
IETF . QUIC loss detection and congestion control:RFC 9002 [S ] . 2021 .
IETF . An unreliable datagram extension to QUIC:draft-ietfquic-datagram-08 [S ] . 2022 .
IETF . Multipath extension for QUIC:draft-lmbdhk-quic- multipath-00 [S ] . 2021 .
IETF . TCP extensions for multipath operation with multiple addresses:RFC 8684 [S ] . 2020 .
IETF . 0-RTT TCP convert protocol:RFC 8803 [S ] . 2020 .
IETF . Datagram congestion control protocol (DCCP):RFC 4340 [S ] . 2006 .
IETF . DCCP extensions for multipath operation with multiple addresses:draft-ietf-tsvwg-multipath-dccp [S ] . 2011 .
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