KR20030046006A - Pdcp massage transmission method - Google Patents

Abstract

PURPOSE: A PDCP(Packet Data Convergence Protocol) message sending method is provided to add components of PDCP information of an RRC(Radio Resource Control) necessary for a CPDCP_Config_Req message, and to generate a PDCP layer message necessary for operations of SRNS(Serving Radio Network Subsystem) relocation. CONSTITUTION: If RAB(Radio Access Bearer) establishment is performed in a target RNC(Radio Network Controller), an RRC of a target SRNC(Serving RNC) transmits a PDCP setup configuration message through a CPDCP_Config_Req message. After receiving a CPDCP_Relo_Req from an RRC of a source SRNC, a PDCP layer entity transmits a UL(UpLink) Receive PDCP sequence number to be received next from a UE(User Equipment) and a DL(DownLink) Send PDCP sequence number which a PDCP sends next to the RRC through a CPDC_Reloc_Conf message. If a message of a CPDCP_Forward_Req instructing forwarding of an unconfirmed SDU from the UE to the target RNC is received, a PDCP sequence number, a stored SDU and a corresponding sequence number are transmitted to an Iu-UP(lu-User Plane) through a PDCP_Data_Ind Primitive. The target SRNC of a relocation state stores the sequence number received from the Iu-UP through a PDCP_Data Req Primitive and SDUs in a forwarding related buffer of the PDCP until a CPDCP_SN_Req is received from the RRC. A UL Receive sequence number and a DL Send sequence number suitable for the PDCP are transmitted to the PDCP through a CPDCP_SN_Req. The PDCP receiving the CPDCP_SN_Req compares the DL Send sequence number received from the RRC with sequence numbers of the forwarded SDUs, to discard the SDUs smaller than the DL send sequence number. And the PDCP of the target RNC transmits all unconfirmed SDUs to the UE and provides normal PDCP functions.

Description

PDCP message transmission method {PDCP MASSAGE TRANSMISSION METHOD}

The present invention relates to a PDCP message transmission method, and in particular, in the current 3GPP TS25.323 stack so that data forwarding supported in the PDCP region can be smoothly performed for lossless SRNS deployment in a DS (Direct Spread) -MAP type IMT2000 system. The present invention relates to a PDCP message transmission method for lossless SRNS relocation to complement the proposed PDCP domain message and message parameters.

1 is a block diagram showing a Layer-2 protocol stack of a user plane of a radio network and an RRC Layer controlling Layer-2 in an IMT-2000 DS-MAP, in which a terminal and a control station have the same protocol stack. Must have the same information between peer protocols.

C-Plane Signaling delivers control information for data transfer, U-Plane information is for data transfer, and all protocols (RLC, MAC, PDCP, BMC) corresponding to Layer-2 are controlled by RRC Layer. Perform the operation according to.

The PDCP Layer starts and releases operations under the control of the RRC, that is, the RRC should be responsible for resource allocation and control of all Layer-2 layers.

When the PDCP receives a CPDCP_Data_Req message from the RRC, the PDCP Layer configures and operates an environment that processes messages from other layers.

Referring to data transmission from the upper to the lower, the lower to the upper of the PDCP, when receiving data from the upper Iu-UP to PDCP_Data_Req, the PDCP layer performs a PDCP function for the data, and the data to the RLC_Data_Req message Send to RLC.

When the PDCP layer receives data in a RLC_Data_Ind message from a lower RLC, the PDCP layer performs a PDCP function for creating a form (PDCP SDU) to send the data to a higher level, and sends the data to a higher Iu-UP in a PDCP_Data_Ind message.

When the PDCP receives the CPDCP_Release_Req message from the RRC, the PDCP releases all functions performed by the PDCP.

FIG. 2 is a table showing messages supported by the PDCP layer. The CPDCP _Config_Req message and the CPDCP _Release_Req message for releasing the CPDCP_Config_Req message requesting configuration of a PDCP Layer Service environment for a specific radio bearer (RB), and an Iu-UP. PDCP_Data_Req message requesting data transfer from User Plane Layer to Radio Link Control (RLC) layer, PDCP_Data_Ind message requesting data transfer from RLC Layer to Iu-UP Layer, and SRNS relocation without loss of PDCP. It is composed of CPDCP_Reloc_Req message, CPDCP_Reloc_Config message and CPDCP_SN_Req message to support.

The parameters used in the CPDCP_Config_Req message include PDCP-Info, RLC-SAP, and SN-Sync of RRC.

FIG. 3 is a table showing the PDCP-Info parameter. The PDCP SN provides a Support for Lossless SRNS Relocation for indicating whether PDCP supports lossless SRNS relocation, and a sequence number that PDCP can count to the maximum. An algorithm that supports WindowSize, a PDCP SDU Header that indicates whether the PDCP SDU is transparently forwarded to the lower layer, and Header Compression that indicates whether the PDCP Layer Entity supports header compression. Choice algorithm type to indicate whether to use, F_MAX_PERIOD, F_MAX_TIME, MAX_HEADER, TCP SPACE, NON_TCP_ SPACE, EXP_REORDERING, etc. to inform the compression algorithm (if using RFC2507).

That is, PDCP Info of RRC transmitted to CPCP as CPDCP_Config_Req message defines the range of functions that PDCP should support and includes information about it.

The RLC-SAP is a parameter indicating whether the mode of the RB is an acknowledgment mode (AM), an unacknowledge mode (UM), or a transparent mode (Tr), and the SN-Sync is a PDCP sequence number of a PDCP layer entity of the corresponding RB. This parameter indicates whether or not to synchronize.

The PDCP Sequence Number in the RNC includes the UL Received PDCP Sequence Number and the DL Send PDCP Sequence Number, the UL Received PDCP Sequence Number is the SDU Number to be received next from the UE, and the DL Send PDCP Sequence Number is the PDCP in the RNC to the UE. Sequence number of the next SDU.

Referring to the operation in the PDCP Layer of the RNC, when the PDCP Layer receives a CPDCP_Config_Req message from the RRC, the PDCP layer configures an environment capable of performing a function that the PDCP should support by PDCP information and parameters.

In this case, when the PDCP supports lossless SRNS relocation, after receiving the CPDCP_Config_Req from the RRC, the PDCP Sequence Number is initialized to '0', and when the PDCP SDU is delivered to the RLC, the DL Send PDCP Sequence Number is incremented by '1'. When the PDCP SDU is received from the RLC, the UL Receive PDCP Sequence Number is increased by '1' to store packets of the downlink stream for lossless SRNS relocation.

If the PDCP Layer Entity is configured to perform the function, the PDCP performs the function according to the message from another layer.

At this time, when lossless SRNC relocation is required, when the PDCP of the source RNC receives the CPDCP_Reloc_Req message, the SRNS relocation process is started, and the CPDCP_Reloc_Req message including the DL Send PDCP Sequence Number and the UL Received PDCP Sequence Number in the RNC is transmitted to the RRC.

After the relocation, when the target RNC receives a CPDCP_SN_Req message from the RRC, it compares the UL Receive Sequence Number of the UE in the message with the sequence numbers of the SDUs sent by the source RNC to the target RNC and discards the SDUs received from the UE. Send to the UE.

The association operation of SRNS relocation of the PDCP layer with another protocol is shown in FIGS. 4 and 5.

First, when the SRNS relocation is performed, the SERVING SRNS relocation (Case1 of FIG. 4) including the UE, the combined Cell / URA update and the SRNS relocation (Case2 of FIG. 4), including the UE, are combined. Cell / URA Update And SRNS rearrangement (FIG. 5).

If the SRNS relocation is required due to the movement of the UE, the source RRC receives the relocation command from the SGSN, and then the RRC stops the RLC layer and transmits a CPDCP _Reloc_Req message to the PDCP Layer.

The PDCP Layer Entity receiving the message performs the SRNS relocation process in PDCP and transmits the DL Send PDCP Sequence Number and UL Receive Sequence Number in the RNC to the RRC Layer through the CPDCP_Reloc_Confirm message.

The sequence numbers are transmitted to the target RNC by a relocation message of RNSAP in case of 'Serving And Combined Cell / URA Update SRNS Relocation (FIG. 4)', and in case of 'Combined Hard Handover and SRNS Relocation (FIG. 5)'. Is delivered to the target RNC by the source RNC and SGSN (or two SGSNs), and in the case of target RNCs, to the target RNC by a forward SRNS Context message.

Then, the source RNC forwards the unrecognized data from the UE to the target RNC receiving the SRNS Context, and the target RNC receives the UL Receive Sequence Number in the PDCP Layer of the UE by the RRC.

The PDCP Layer Entity of the target RNC receives the DL Receive PDCP Sequence Number of the UE through the CPDCP_SN_Req message from the RRC, compares it with the DL Send PDCP Sequence Number received from the source RNC, discards the SDUs already received at the UE and does not receive them. SDUs are sent to the UE so that PDCP SDUs are not lost between the source RNC and the target RNC in SRNS deployment.

As described above, confusion may occur while the source RNC performs data forwarding to the target RNC. Since the first PDCP layer needs to store packets not yet received by the UE at the time of relocation to support lossless SRNS relocation, The PDCP layer must secure and manage resources that can store some packets, but there are no methods for dealing with these resources.

Second, the timing at which the source RNC provides data for data forwarding by the PDCP to the target RNC is either incorrect or undefined, as shown in the process of Figures 1 and 2, data forwarding is the source RNC's command to relocate RANAP. And send SRNS Context to target RNC.

Third, it was decided in Spec 25.060 that the source RNC should include the PDCP Sequence Number in the GTP-U Layer when data forwarding to the target RNC. However, in PDCP Spec 25.323, the PDCP Sequence Number is not included in the message parameter when forwarding.

Fourth, if the PDCP Sequence Number is included in data forwarding, when PDCP receives data (PDCP_DATA_Req) from the upper part or sends data (PDCP_DATA_IND), it is difficult to distinguish whether the Meassage Data Format contains pure data or sequence numbers. it's difficult.

Fifth, in SRNS relocation, PDCP cannot determine whether to store SDUs received from the upper IU-UP in the buffer until receiving CPDCP_SN_Req message from RRC.

If the target RNC is forwarded data from the source RNC, the PDCP of the target RNC may not normally transmit the forwarded data.

The SRNS relocation process in the PDCP layer starts with receiving a CPDCP_Reloc_Req message from the RRC while the source RNC receives the relocation command message and delivers the SRNS context.

If the PDCP Layer in the RNC receives the CPDCP_Reloc_Req message and sends the CPDCP_Config _Req message and forwards the SDUs not recognized by the UE to the target RNC via the Iu interface without any control from the RRC, the SRNS Context is sent from the source RNC to the target RNC. Data forwarding to the target RNC may occur in the undelivered state. In this case, the SRNS relocation process presented in 3GPP TS23.060 is violated, and data forwarded by the source RNC to the target RNC using the lu interface is normally transmitted. There is a problem that can not be.

The present invention has been made to solve the above problems, and the PDCP message transmission method to add the component of the PDCP information of the RRC required to the CPDCP_Config_Req message and to generate the PDCP Layer message required for SRNS relocation operation. There is a purpose.

1 is a block diagram showing a Layer-2 protocol stack of a user plane of a radio network and an RRC Layer controlling Layer-2 in IMT-2000 DS-MAP;

2 is a table showing a message supported by the PDCP Layer.

3 is a table showing PDCP-Info parameters.

4 and 5 show the operation of the SRNS relocation of the PDCP Layer with other protocols.

6 is a table showing a message generated in the present invention PDCP.

7 is a table showing PDCP-Info parameters.

8 and 9 show the operation of the SRNS relocation of the PDCP Layer of the present invention in association with other protocols.

10 is a schematic flow diagram of a method of transmitting a PDCP message of the present invention.

The present invention for achieving the above object, the RAB configuration of the target RNC, the first step of the RRC of the target SRNC transmits a PDCP configuration request message through the CPDCP_Config_Req message; The PDCP Layer Entity of the source SRNC may include: a second process of transmitting a UL Receive PDCP sequence number to be received next from the UE and a DL Send PDCP sequence number to be transmitted next by the PDCP to the RRC through a CPDCP_Reloc_Conf message; Transmitting a PDCP sequence number and a stored SDU to the IU-UP through a PDCP_Data_Ind Primitive when receiving a message (CPDCP _Reloc _Req) for forwarding an SDU not confirmed from the UE to the target RNC; Storing a sequence number and SDUs received by PDu_Data Req Primitive from Iu-UP in the forwarding-related buffer of PDCP until receiving target CPDCP_SN_Req from RRC; Transmitting a UL Receive sequence number and a DL Send sequence number suitable for the PDCP to the PDCP through CPDCP_SN_Req; Receiving the CPDCP_SN_Req, the PDCP discards SDUs smaller than the DL Send sequence number in comparison with the DL Send sequence number received from the RRC and the sequence numbers of the forwarded SDUs; After the PDCP of the target RNC transmits all received unacknowledged SDUs to the UE, the PDCP of the target RNC performs a seventh process of performing a normal PDCP function operation.

Hereinafter, the operation and effects of the PDCP message transmission method according to the present invention will be described in detail with reference to the accompanying drawings.

6 is a table showing a message generated in the PDCP according to the present invention. As shown in FIG. 6, the configuration of a message generated in a general PDCP is the same as in FIG. The CPDCP_Forward_Req message is added to request data forwarding from the RRC of the source RNC to the PDCP Layer so that the SDUs can be forwarded in a timely manner, and the corresponding SDU Sequence Number is added to the parameters of PDCP_Data_Req and PDCP_Data_IND during forwarding.

FIG. 7 is a table showing information of a PDCP message of the present invention. In the PDCP information table of the conventional RRC, an element for determining a maximum number of packets that a PDCP layer can store SDUs for data forwarding and a current SRs SRNS relocation Add a Relocation State element to indicate whether it is running or not.

In addition, it is determined whether or not the sequence number is included in the parameters in the PDCP_Data_Req and PDCP_Data_IND messages according to this state.

Since the general operation of the present invention is the same as the conventional one, it is omitted. However, when the PDCP of the source RNC receives a relocation request from the RRC, the present invention utilizes the resources of the maximum number of packets that can be included in the CPDCP_Config_Req message to store packets that the UE-RRC has not yet received, and then the source RNC After the SRNS context is transmitted to the target RNC, the PDCP layer, which has received data forwarding request from the RRC of the source RNC, forwards the SDU stored in the target RNC with the corresponding sequence number.

8 and 9, the PDCP Layer, which has received the CPDCP_Config_Req message of FIG. 7 from the RRC, forms a PDCP Layer Entity.

At this time, PDCP_Info included in the CPDCP_Config_Req message has the maximum number of packets for PDCP to relocate without loss, and has the relocation state of PDCP_Info as a normal state value.

If SRNS relocation is required due to the movement of UE-RRC, the RRC Layer of the source RNC receiving the relocation command signal of RANAP from SGSN requests the CPDCP_Reloc_Req message to the PDCP Layer.

At this time, the PDCP of the source RNC goes to the relocation state.

Accordingly, the PDCP layer transmits a DL Send PDCP sequence number of a PDU to be transmitted next and a UL Receive PDCP sequence number to be received next from the UE-RRC through a CPDCP_Reloc_Conf message.

The DL Send PDCP sequence number and the UL Receive PDCP sequence number are transmitted to the target RNC when the SRNS context is sent and compared with the PDCP sequence number of the UE-RRC.

Here, the data forwarding operation of the PDCP layer is performed after the relocation command via RNSAP is transmitted to the target RNC when updating the SRNS relocation as shown in FIG. 8, and when the SRNS relocation is performed as shown in FIG. 9. Since the data forwarding operation is performed after the forward RNS context process, the PDCP Layer Entity waits for the CPDCP_Forward_Req primitive from the RRC of the source RNC to perform the forwarding. do.

More specifically, the operation of PDCP in lossless SRNS relocation will be described with reference to FIG.

First, if the element (SRNS_Reloc) is set to '1' to indicate whether RRC in the target RNC supports lossless relocation in the PDCP_Info parameter of the CPDCP _Config_Req message requesting the setting of the PDCP Layer Entity, the PDCP Layer Entity requests data delivery. Sequence numbering is performed on the uplink PDU and the downlink PDU.

Next, the PDCP Layer Entity stores some downlink SDUs with the sequence number in the buffer, and removes the SDUs received from the RLC Layer through the PDCP_Data_Confirm message from the buffer.

Here, when the RAB is configured in the target RNC, the RNC of the target SRNC transmits a PDCP configuration request message through the CPDCP _Config_Req message, and does not perform any function except for the relocation until the CPDCP_SN_Req Primitive is received from the RRC. Relocation State of PDCP_Info is set.

Next, the PDCP Layer Entity of the source SRNC sends a UL Receive PDCP sequence number to be received next from the UE and a DL Send PDCP sequence number to be sent next by the PDCP to the RRC through the CPDCP_Reloc_Conf message.

Then, the RRC of the target SRNC receives the SRNS contexts DLSN and ULSN of the source SRNC through a relocation message or a forward SRNS context message.

When the PDCP Layer Entity of the source RNC receives a message (CPDCP_Forward_Req) to forward an SDU not confirmed by the UE to the target RNC, the PDCP Layer Entity receives the PDCP sequence number and the stored SDU through ICP-UP through PDCP_Data_Ind Primitive. send.

After that, the PDCP Layer Entity is formed, and the target SRNC in the relocated state keeps the sequence number and SDUs received from the IU_UP as PDCP_Data Req Primitive in the PDCP forwarding-related buffer until the CPDCP_SN_Req is received from the RRC.

Next, compare the UL Receive sequence number in the SRNS context received from the source SRNC of the target SRNC with the sequence number received through the DL Send sequence number and the relocation completion message, and then compare the UL Receive sequence number and DL Send sequence number suitable for PDCP with CPDCP_SN_Req. Send to PDCP via

At this time, if the sequence number received through the relocation complete message is greater than the DL Send sequence number received from the source SRNC, the CPDCP_Config_Req Primitive with the SN_Sync parameter set to '1' is transmitted to the PDCP before sending the CPDCP_SN_Req.

Then, the PDCP receiving CPDCP_SN_Req discards SDUs smaller than the DL Send sequence number compared to the DL Send sequence number received from the RRC and the sequence numbers of the forwarded SDUs, and the DL PDU counts from the DL Send sequence number received from the RRC. The UL PDU counts from the UL Receive sequence number received from the RRC.

Then, after transmitting all unconfirmed SDUs received by the PDCP of the target RNC to the UE, the PDCP returns from the relocation state to the normal state and performs a normal PDCP function operation.

As described in detail above, the present invention adds the number of packets capable of storing data to be forwarded by the PDCP layer to PDCP Info of the RRC, and delivers the size to which the RRC predicts and manages the necessary resources in the RNC to the PDCP Layer. In a system that can utilize resources and supports lossless SRNS relocation, after receiving a message indicating the appropriate time to forward data from RRC, data forwarding is performed, thereby improving call quality.

Claims (7)

When the RAB is configured in the target RNC, the RRC of the target SRNC transmits a PDCP configuration request message through a CPDCP_Config_Req message; After receiving CPDCP_Relo_Req from the RRC of the source SRNC, the PDCP Layer Entity transmits a UL Receive PDCP sequence number to be received next from the UE and a DL Send PDCP sequence number to be transmitted next by the PDCP to the RRC through a CPDCP_Reloc_Conf message; Receiving a message (CPDCP_Forward_Req) for forwarding an SDU not confirmed by the UE to the target RNC, and transmitting the PDCP sequence number and the stored SDU along with the corresponding Sequence Number to the IU-UP through the PDCP_Data_Ind Primitive; Storing a sequence number and SDUs received by PDu_Data Req Primitive from Iu_UP in the forwarding-related buffer of PDCP until receiving the CPDCP_SN_Req from RRC; Transmitting a UL Receive sequence number and a DL Send sequence number suitable for the PDCP to the PDCP through CPDCP_SN_Req; Receiving the CPDCP_SN_Req, the PDCP discards SDUs smaller than the DL Send sequence number in comparison with the DL Send sequence number received from the RRC and the sequence numbers of the forwarded SDUs; The PDCP message transmission method, characterized in that the PDCP of the target RNC performs all the received unacknowledged SDUs to the UE, and then performs a seventh process of performing a normal PDCP function operation. The method of claim 1, wherein the CPDCP_Config_Req message includes an element indicating a maximum packet size that the PDCP can store when SRNS is relocated. The method of claim 1, wherein the first process comprises: If an element (SRNS_Reloc) indicating whether to support lossless relocation in the CPCP_Info parameter of the CPDCP_Config_Req message requesting the setting of the PDCP Layer Entity is set to '1', then the PDCP Layer Entity requests the uplink PDU and the downlink PDU to request data delivery. Performing sequence numbering on; And storing, by the PDCP Layer Entity, some downlink SDUs with a sequence number in a buffer, and removing the SDUs received from the RLC Layer of the SL2B through the PDCP_Data_Config message from the buffer. The method of claim 1, wherein the third process comprises: When the PDCP sends a CPDCP_Reloc_Config message and receives the CPDCP_Forward_Req from the RRC, when the data is sent to the Iu_UP, the PDCP message transmission method comprising a sequence number of the corresponding data. The method of claim 1, wherein the CPDCP_Config_Req message includes an element indicating whether the PDCP is a Relocation State or a Normal State. The method of claim 1, wherein the third process comprises: The PDCP message transmission method according to the PDCP State, and determines whether or not the sequence number in the PDCP_Data_Ind Primitive and stores the PDCP Sequence Number and SDU. 7. The method of claim 6, wherein the PDCP operation state is divided into a relocation state and a normal state.