Flow control method and system for data link layer in mobile communication system

Abstract

The invention provides a flow control method and system for a data link layer in a mobile communication system. The flow control method comprises the following steps: initializing flow control threshold values, comprising a cell-grade flow control threshold value and a bearing-grade flow control threshold value of a PDCP layer and an RLC layer,; when a data message from a GTPU layer is received, judging a load condition of a base station by the PDCP layer according to a current congestion zone bit and processing the load condition; carrying out PDCP downstream flow processing; meanwhile, and carrying out pre-judgment on the cell-grade and bearing-grade congestion zone bits by the PDCT layer according to the length of a current downstream message queue and entity quantity downstream buffering zones; carrying out RLC downstream flow processing; meanwhile, and carrying out pre-judgment on the cell-grade and bearing-grade congestion zone bits by the RLC layer according to the length of a current downstream message queue and entity quantity of downstream buffering zones; utilizing pre-judgment results for flow control processing of subsequent new data messages. The flow control method and system in the technical scheme can be used for flow control on a data link efficiently and reasonably and ensure the stability of a base station system.

Description

technical field [0001] The present invention relates to the technical field of mobile communication, in particular to a flow control technical solution for PDCP (data link layer) in a mobile communication system (including but not limited to TDD-LTE, FDD-LTE). Background technique [0002] In the existing mobile communication system, a three-layer wireless interface protocol system is usually used: the physical layer (L1), the data link layer (L2), and the network layer (L3). The data link layer can be further divided into MAC (Medium Access Control, Media Access Control) sublayer, RLC (Radio Link Control, Radio Link Control) sublayer and PDCP (Packet Data Convergence Protocol, packet data convergence protocol) sublayer Floor. [0003] The lower layer of the PDCP sublayer is the RLC sublayer, the upper layer corresponding to the control plane is the RRC (Radio Resource Control, radio resource control) layer, and the upper layer corresponding to the user plane is the GTPU (G...

AI Technical Summary

Problems solved by technology

[0005] 1. From a global perspective, the low performance of the eNB causes too much cache at the L2 data link layer (it may be too much cache at the PDCP layer or too much cache at the RLC layer), which in turn leads to memory exhaustion

[0006] 2. From the perspective of a UE (User Equipment, terminal user), when the air interface encryption is enabled, if there are too many PDCP PDUs (Packet Data Unit, packet data unit) discarded continuously on an RB, exceeding the threshold, it will cause the UE to The HFN (Hyper-Frame Number, super-frame number) between the eNB and the eNB is out of sync, causing the receiver to fail to decrypt

For real-time services with high real-time requirements, the ARQ mechanism has a certain negative impact on the delay and the use of air interface resources.

[0010] To sum up, there is currently no flow control scheme that is more suitable for the data link layer of the mobile communication system, so that the mobile communication system can efficiently and reasonably perform flow control on the data link

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