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US-12621679-B2 - User plane data processing method and base station

US12621679B2US 12621679 B2US12621679 B2US 12621679B2US-12621679-B2

Abstract

The present disclosure provides a user plane data processing method and a base station. The method includes: each CU-UP determines a current service support capabilities according to first trigger information, and sends it to a CU-CP; the CU-CP selects a CU-UP for each service bearer of the UE according to the current service support capabilities of the each CU-UP if at least part of service bearers of the UE needs to be configured or updated according to second trigger information; the CU-CP sends first UP configuration information associated with the each service bearer to the UE and second UP configuration information associated with the each service bearer to the each CU-UP, thereby the UE determining whether to configure a PDCP status report according to the first UP configuration information, and each CU-UP determining whether to process the PDCP status report from the UE according to the second UP configuration information.

Inventors

  • Sen Xu
  • Zhenqiang Sun
  • Le Zhang

Assignees

  • CHINA TELECOM CORPORATION LIMITED

Dates

Publication Date
20260505
Application Date
20210422
Priority Date
20200601

Claims (19)

  1. 1 . A processing method of user plane data by a base station, comprising: determining, by each user plane entity of a centralized unit (CU-UP) of the base station, a current service support capabilities according to first trigger information; sending, by the each CU-UP entity, the current service support capabilities to a control plane entity of a centralized unit (CU-CP) of the base station; selecting, by the CU-CP entity, a corresponding CU-UP entity for each service bearer of the user equipment according to the current service support capabilities of the each CU-UP entity under a condition that at least part of service bearers of the user equipment needs to be configured or updated according to second trigger information; and sending, by the CU-CP entity, first user plane configuration information associated with the each service bearer to the user equipment and second user plane configuration information associated with the each service bearer to the each CU-UP entity, thereby the user equipment determining whether to configure a packet data convergence protocol (PDCP) status report according to the first user plane configuration information, and each CU-UP entity determining whether to process the PDCP status report from the user equipment according to the second user plane configuration information, wherein the sending, by the CU-CP entity, the first user plane configuration information to the user equipment comprising: determining, by the CU-CP entity, PDCP configuration information of the each service bearer according to pre-configuration information and the service bearer information of the user equipment; and sending, by the CU-CP entity, the first user plane configuration information to the user equipment through a radio resource control reconfiguration message, wherein the first user plane configuration information comprises protocol stack parameter configuration information associated with the PDCP configuration information.
  2. 2 . The processing method according to claim 1 , wherein the first trigger information comprises: a first trigger request sent by a network administrator for triggering the each CU-UP entity to send a first interface setup request to the CU-CP entity, or a second trigger request sent by the network administrator for triggering the each CU-UP entity to send a first configuration update request to the CU-CP entity, or a second interface setup request or a second configuration update request sent by the CU-CP entity.
  3. 3 . The processing method according to claim 2 , wherein the current service support capabilities of the each CU-UP entity includes at least one of robust header compression capability support information and Ethernet header compression capability support information, wherein the robust header compression capability support information comprises at least one of supported uplink unidirectional header compression and bidirectional compression, and a list of supported compression algorithms, and the Ethernet header compression capability support information comprises a maximum number of supported context identifiers, compression algorithms, and a feedback mode.
  4. 4 . The processing method according to claim 3 , wherein the sending, by the each CU-UP entity, the current service support capabilities to the CU-CP entity comprises: determining, by the each CU-UP entity, a first bearer message according to the first trigger information; sending, by the each CU-UP entity, the current service support capabilities to the CU-CP entity by using the first bearer message; updating, by the CU-CP entity, the current service support capabilities of the each CU-UP entity after receiving the current service support capabilities sent by the each CU-UP entity, wherein the first bearer message is a first interface setup request under a condition that the first trigger information is the first trigger request; the first bearer message is the second configuration update request under a condition that the first trigger information is the second trigger request; the first bearer message is an interface setup response under a condition that the first trigger information is the second interface setup request; and the first bearer message is a configuration update request response under a condition that the first trigger information is the second configuration update request.
  5. 5 . The processing method according to claim 1 , wherein the second trigger information comprises at least one of: a handover request associated with the user equipment sent by a neighboring base station, a bearer setup request or a bearer modification request sent by a core network, and that the user equipment needs to trigger a re-establishment as detected by the CU-CP entity.
  6. 6 . The processing method according to claim 1 , wherein the determining, by the CU-CP entity, the PDCP configuration information of the each service bearer comprises: determining, by the CU-CP entity, that the PDCP configuration information is not configured with a PDCP status report under a condition that the service bearer needs to be configured with an acknowledged mode and the user equipment does not have handover demand; determining, by the CU-CP entity, that the PDCP configuration information is configured with a PDCP status report under a condition that the service bearer needs to be configured with an acknowledged mode and the user equipment has a handover demand; and determining, by the CU-CP entity, whether to configure at least one of a robust header compression mode and an Ethernet header compression mode in the PDCP configuration information according to the pre-configuration information under a condition that the service bearer does not need to configured with a acknowledged mode.
  7. 7 . The processing method according to claim 1 , wherein the pre-configuration information comprises at least one of: a service type of configuring a robust header compression, a service type of configuring a Ethernet header compression, a service type of simultaneously activating the Ethernet header compression and the robust header compression, and information about whether to trigger the status report.
  8. 8 . The processing method according to claim 1 , wherein the sending, by the CU-CP entity, the second user plane configuration information to the each CU-UP entity comprises: determining, by the CU-CP entity, a second bearer message according to the second trigger information after receiving a radio resource control reconfiguration completion message sent by the user equipment; sending, by the CU-CP entity, the second user plane configuration information to the each CU-UP entity using the second bearer message, wherein the second user plane configuration information comprises at least one of a activation indication of the PDCP status report, the robust header compression configuration information, an Ethernet header compression configuration feedback mechanism information and the Ethernet header compression configuration information; processing, by the each CU-UP entity, PDCP data corresponding to a bearer of the user equipment according to the second user plane configuration information after receiving the second user plane configuration information sent by the control plane entity, wherein the second bearer message is a bearer context setup request under a condition that the second trigger information is a bearer setup request sent by a core network or a handover request sent by a neighboring base station; and the second bearer message is a bearer context modification request under a condition that the second trigger information is a bearer modification request sent by the core network.
  9. 9 . The processing method according to claim 8 , wherein the processing, by the each CU-UP entity, PDCP data corresponding to a bearer of the user equipment according to the second user plane configuration information comprises: no processing, by the each CU-UP entity, the PDCP status report of the user equipment and discarding a PDCP service data unit according to a discard timer under a condition that the activation indication of the status report of a designated bearer is false or not configured, and deleting the PDCP service data unit from a buffer under a condition that the transmission of the PDCP service data unit is confirmed to be successful according to acknowledgement indication information of the PDCP protocol data unit sent by the CU-CP entity.
  10. 10 . The processing method according to claim 9 , wherein the processing, by the each CU-UP entity, the PDCP data corresponding to the bearer of the user equipment according to the second user plane configuration information comprises: determining, by the each CU-UP entity, whether to discard the PDCP service data unit according to the PDCP status report of the user equipment and the discard timer under a condition that the activation indication of the status report of the designated bearer is true, and deleting the PDCP service data unit from a buffer under a condition that the transmission of the PDCP service data unit is confirmed to be successful according to acknowledgement indication information of the PDCP protocol data unit sent by the CU-CP entity.
  11. 11 . The processing method according to claim 8 , wherein the processing, by the each CU-UP entity, the PDCP data corresponding to the bearer of the user equipment according to the second user plane configuration information further comprises: determining, by the each CU-UP entity, a PDCP service data unit to be retransmitted and a PDCP service data unit which has been correctly received according to whether a PDCP status report is triggered, generating reception status information of the PDCP service data unit, and sending the bearer configuration and data forwarding information to the CU-CP entity through third bearer information corresponding to the second bearer information, under a condition that the second user plane configuration information indicates that the designated bearer triggers a PDCP re-establishment or a PDCP data recovery information unit.
  12. 12 . The processing method as claimed in claim 11 , wherein the third bearer information is a bearer context setup response under a condition that the second bearer information is a bearer context setup request; and the third bearer message is a bearer context modification response under a condition that the second bearer information is a bearer context modification request.
  13. 13 . The processing method according to claim 12 , wherein the processing, by the each CU-UP entity, the PDCP data corresponding to the bearer of the user equipment according to the second user plane configuration information further comprises: continuously sending, by the each CU-UP entity, a preset number of uncompressed data packets firstly and then sending subsequent data in a compression mode in a process of performing data processing in the downlink direction, under a condition that the designated bearer is configured with Ethernet header compression information but is not configured with Ethernet header compression feedback mechanism, or under a condition that the designated bearer is configured with Ethernet header compression information and the Ethernet header compression feedback mechanism information indicates false.
  14. 14 . The processing method according to claim 13 , wherein the processing, by the each CU-UP entity, the PDCP data corresponding to the bearer of the user equipment according to the second user plane configuration information further comprises: sending, by the each CU-UP entity, feedback acknowledgement information through the PDCP control protocol data unit in a case where uncompressed data packets sent by the user equipment are received in the process of performing compression in the uplink direction, under a condition that the designated bearer is configured with Ethernet header compression information and the Ethernet header compression feedback mechanism information indicates true.
  15. 15 . The processing method according to claim 14 , wherein the processing, by the each CU-UP entity, the PDCP data corresponding to the bearer of the user equipment according to the second user plane configuration information further comprises: sending, by the each CU-UP entity, a preset number of uncompressed data packets firstly, and then sending compressed data packets to the user equipment according to the Ethernet header compression configuration information after receiving acknowledgement information of the PDCP control protocol data unit fed back by the user equipment in the process of performing data processing in the downlink direction, under a condition that the designated bearer is configured with the Ethernet header compression information and the Ethernet packet header compression feedback mechanism information indicates true.
  16. 16 . The processing method according to claim 8 , wherein the processing, by the each CU-UP entity, the PDCP data corresponding to the bearer of the user equipment according to the second user plane configuration information further comprises: feedbacking, by the each CU-UP entity, compression mode indication information not through the PDCP control protocol data unit in a case where uncompressed data packets sent by the user equipment are received in the process of performing compression in the uplink direction, under a condition that the designated bearer is configured with the Ethernet header compression information but is not configured with the Ethernet header compression feedback mechanism, or under a condition that the designated bearer is configured with the Ethernet header compression information and the Ethernet header compression feedback mechanism information indicates false.
  17. 17 . The processing method according to claim 8 , wherein the processing, by the each CU-UP entity, the PDCP data corresponding to the bearer of the user equipment according to the second user plane configuration information further comprises: compressing, by the each CU-UP entity, data packets in an Ethernet header compression mode in the uplink direction and the downlink direction under a condition that the designated bearer is configured with Ethernet header compression information and robust header compression information simultaneously.
  18. 18 . A base station, comprising: a processor; and a memory coupled to the processor, storing program instructions which, when executed by the processor, cause the processor to: determine, by each user plane entity of a centralized unit (CU-UP) of the base station, a current service support capabilities according to first trigger information; send, by the each CU-UP entity, the current service support capabilities to a control plane entity of a centralized unit (CU-CP) of the base station; select, by the CU-CP entity, a corresponding CU-UP entity for each service bearer of the user equipment according to the current service support capabilities of the each CU-UP entity under a condition that at least part of service bearers of the user equipment needs to be configured or updated according to second trigger information; and send, by the CU-CP entity, first user plane configuration information associated with the each service bearer to the user equipment and second user plane configuration information associated with the each service bearer to the each CU-UP entity, thereby the user equipment determining whether to configure a packet data convergence protocol (PDCP) status report according to the first user plane configuration information, and each CU-UP entity determining whether to process the PDCP status report from the user equipment according to the second user plane configuration information, wherein the send, by the CU-CP entity, the first user plane configuration information to the user equipment comprising: determine, by the CU-CP entity, PDCP configuration information of the each service bearer according to pre-configuration information and the service bearer information of the user equipment; and send, by the CU-CP entity, the first user plane configuration information to the user equipment through a radio resource control reconfiguration message, wherein the first user plane configuration information comprises protocol stack parameter configuration information associated with the PDCP configuration information.
  19. 19 . A non-transitory computer readable storage medium for storing computer instructions which, when executed by a processor, cause the processor to: determine, by each user plane entity of a centralized unit (CU-UP) of the base station, a current service support capabilities according to first trigger information; send, by the each CU-UP entity, the current service support capabilities to a control plane entity of a centralized unit (CU-CP) of the base station; select, by the CU-CP entity, a corresponding CU-UP entity for each service bearer of the user equipment according to the current service support capabilities of the each CU-UP entity under a condition that at least part of service bearers of the user equipment needs to be configured or updated according to second trigger information; and send, by the CU-CP entity, first user plane configuration information associated with the each service bearer to the user equipment and second user plane configuration information associated with the each service bearer to the each CU-UP entity, thereby the user equipment determining whether to configure a packet data convergence protocol (PDCP) status report according to the first user plane configuration information, and each CU-UP entity determining whether to process the PDCP status report from the user equipment according to the second user plane configuration information, wherein the send, by the CU-CP entity, the first user plane configuration information to the user equipment comprising: determine, by the CU-CP entity, PDCP configuration information of the each service bearer according to pre-configuration information and the service bearer information of the user equipment; and send, by the CU-CP entity, the first user plane configuration information to the user equipment through a radio resource control reconfiguration message, wherein the first user plane configuration information comprises protocol stack parameter configuration information associated with the PDCP configuration information.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS This application is a U.S. National Stage Application under 35 U.S.C. § 371 of International Patent Application No. PCT/CN2021/088818, filed on Apr. 22, 2021, which is based on and claims priority from CN application No. 202010484775.6, filed on Jun. 1, 2020, the disclosure of both of which are hereby incorporated into this disclosure by reference in its entirety. TECHNICAL FIELD The present disclosure relates to the field of wireless communications, and in particular, to a user plane data processing method and a base station. BACKGROUND As the main technology of the next generation wireless network, 5G has the technical features of supporting ultra-wide band, large connection, and the like. At present, in a wireless network architecture, a base station side adopts an architecture based on a CU (Centralized Unit) and a DU (Distributed Unit). A interface F1 is used between the CU and the DU to transmit information of the control plane and the user plane, wherein the CU is mainly responsible for protocol functions of a PDCP (Packet Data Convergence Protocol), an SDAP (Service Data Adaptation Protocol) and an RRC (Radio Resource Control) layer, and the DU is mainly responsible for functions of a physical layer, an MAC (Media Access Control) layer, an RLC (Radio Link Control) layer, and a part of RRC layer ASN.1 (Abstract Syntax Notation ONE) coding and decoding functions. According to a current protocol, physical layer parameters of the base station are generated and configured by the DU and sent to the CU, a parameter configuration such as a higher layer parameter of a cell and a radio resource management parameter are generated by the CU. To further support the virtualization function on the base station side, the base station side in the current architecture may include one CP (Control Plane) entity and a plurality of UP (User Plane) entities. The UP entity and the CP entity are connected through an E1 interface. When a UP entity establishes an E1 interface with the CP entity, the UP entity needs to send relevant information to the CP entity to make relevant configuration settings. Currently, only connection capability information of the core network in a protocol is sent to the CP entity. The base station side needs to support various capability information, including capabilities of RoHC (Robust Header Compression) and EHC (Ethernet Header Compression), etc. Limited by base station capabilities, not every UP entity can support all or part of the above capabilities. According to the current protocol, the base station configures the PDCP parameter information for the UE (user equipment) according to the granularity of a DRB (Data Resource Bearer). For example, under a condition that an RLC entity adopts AM (Acknowledged Mode), it is required to configure whether or not to activate a status report. The status report is mainly used for selective retransmission in the switching process, selective transmission of multi-channel data in double connection and the like. If the status report is configured for the PDCP layer, the PDCP entity of the receiving side triggers a status report procedure to the transmitting side during a reconstruction of the PDCP layer or data recovery of the PDCP. After receiving the status report, the base station regards all SDUs (Service Data Unit) with the value of 1 and less than the value in the FMC (Fixed Mobile Convergence) in the bitmap of the status report as successfully sent, and if the timer is overtime or missing SDUs are acknowledged in the status report, the transmitting end determines that the PDCP SDUs and corresponding PDCP PDUs (Protocol Data Units) need to be discarded. When the PDU has been transmitted to the bottom layer, the PDCP needs to notify the bottom layer to delete corresponding data operations. Ethernet header compression is an enhancement means for uRLLC (Ultra-reliable and Low Latency Communication) service, and the main purpose of the Ethernet header compression is to save transmission Latency of data packets in air interfaces and improve the overall occupation ratio of payload in the packet transmission process. SUMMARY According to a first aspect of the embodiments of the present disclosure, there is provided processing method of user plane data by abase station, comprising: determining, by each user plane entity of a centralized unit (CU-UP) of the base station, a current service support capabilities according to first trigger information; sending, by the each CU-UP entity, the current service support capabilities to a control plane entity of a centralized unit (CU-CP) of the base station; selecting, by the CU-CP entity, a corresponding CU-UP entity for each service bearer of the user equipment according to the current service support capabilities of the each CU-UP entity under a condition that at least part of service bearers of the user equipment needs to be configured or updated according to second trigger in