3GPP LTE系统用户面协议设计与中继策略分析

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"LTE系统用户面协议设计与解码转发型中继研究" 本文深入探讨了3GPP的WCDMA/HSPA标准中的无线链路控制（Radio Link Control, RLC）子层，并讨论了其在未来的宽带网络中的演进。RLC子层位于介质访问控制（Medium Access Control, MAC）子层之上，并且在其他高层协议如无线资源控制（Radio Resource Control, RRC）和分组数据汇聚协议（Packet Data Convergence Protocol, PDCP）之下。RLC的主要功能是通过分段、自动重传请求（Automatic Retransmission Request, ARQ）、顺序交付等方式确保可靠的数据传输。RLC层具有三种工作模式：透明模式（Transparent Mode, TM）、无确认模式（Unacknowledged Mode, UM）和确认模式（Acknowledged Mode, AM）。第9章“用户平面协议设计与解码转发型中继”详细介绍了以下几个方面： 9.1 引言：这部分简要介绍文章的研究背景和目标，即在3GPP的长期演进（Long Term Evolution, LTE）系统中，对用户平面协议设计和特定类型的中继——解码转发（Decode-Forward, DF）中继的研究。 9.2 RLC层概述：这里详细阐述了RLC层的基本功能和结构，以及在不同工作模式下如何处理数据传输。 9.3 宽带RAN的影响：讨论了宽带无线接入网络（Radio Access Network, RAN）对RLC子层设计和性能的影响，特别是对于高速数据传输和延迟敏感应用的需求。 9.4 RLC配置的讨论：分析了不同的RLC配置选项及其对系统性能的影响，包括效率、可靠性、延迟等方面的考虑。 9.5 带有中继的蜂窝网络：研究了中继节点在LTE网络中的作用，特别是解码转发型中继如何增强覆盖范围和吞吐量，以及如何处理RLC层的协议交互。 9.6 模拟模型和结果：这部分提供了所提出方案的模拟设置，展示了仿真结果，以验证和比较不同RLC配置和中继策略的性能。 9.7 结论和讨论：总结了研究的主要发现和贡献，并提出了未来可能的研究方向。参考文献列出了本文引用的相关技术资料。这篇论文对于理解LTE系统的RLC子层设计和中继技术的应用具有重要价值，同时对于优化宽带网络性能和提升用户体验的研究人员和技术人员来说，也提供了宝贵的理论基础和实践指导。

User Plane Protocol Design for LTE System ◾ 307

Duplicate detection: this ensures that the RLC SDUs are delivered only ◾

once to the upper layer.

Ciphering function: this provides protection of privacy. ◾

Because our study is on the RLC layer performance issue, the focus is necessar-

ily on the RLC ARQ function. e standard [1] deﬁnes various triggers of sending

the polling at the sender and sending the status report by the receiver. e request

of polling includes the following:

Timer-based polling: the RLC sender sends polling periodically as decided ◾

by a timer.

Poll timer: this starts whenever a polling message is sent and stops when a ◾

status report is received. is primarily retransmits a poll if it is lost in the

link.

Last PDU in buﬀer: a poll should be sent with the last PDU in the RLC ◾

sender’s transmission buﬀer.

Last PDU in retransmission buﬀer: the RLC sender always puts the unac- ◾

knowledged PDUs into the retransmission buﬀer to wait for possible

retransmission. e last PDU in the retransmission buﬀer should be sent

with a poll, if it is scheduled for retransmission.

Poll every N PDU: this triggers the poll for every ◾ N PDU sent.

Poll every N SDU: this triggers the poll for every ◾ N SDU sent.

Window-based polling: this sets the polling bit when a certain percentage ◾

of the transmission window is sent.

Also, a number of triggers for the receiver RLC to send the status report are

listed as follows:

e “polling bit” in a received AMD (acknowledged mode data) PDU is ◾

set to “1.”

“Missing PDU indicator” is conﬁgured and a missing AMD PDU is ◾

detected. e missing PDU indicator is optional; this tells the RLC receiver

to send a status report whenever a hole in the received PDU sequence is

detected.

e “timer-based STATUS transfer” is conﬁgured and the timer Timer_ ◾

Status_Periodic has expired.

A status report can be triggered by the MAC, following the MAC-hs ◾

(the MAC entity for high-speed downlink packet access [HSDPA]) reset

operation.

On the other hand, the status report can be prohibited even if any of the pre-

ceding situations holds true, except if the status report is triggered by the MAC-hs

reset. is is controlled by the timer Timer_Status_Prohibit, which prohibits the

status report transfer if it is started. Upon its expiry, a status report is sent if it is

AU7210.indb 307 2/25/09 4:30:35 PM

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