KR100524744B1 - Estimated pdu counter controlling method for radio link control protocol - Google Patents

Abstract

The present invention provides an EPC (Estimated PDU Counter) which is a retransmission mechanism of a status PDU for handling a PDU transmission error when a PDU transmission error occurs in a Radio Link Control (RLC) layer of the WCDMA protocol. The present invention relates to a method for controlling an EPC of an RLC protocol for more efficient operation of the RLC protocol. In the mobile communication system, in the mobile communication system, data lost from the data (PDU: Protocol Data Unit) received from the transmitting side is identified. When requesting retransmission of the lost data, the receiving side passes the set time (Timer EPC) corresponding to the number of data to be retransmitted, and then status data at that time regardless of the loss of the retransmitted data. (STATUS PDU) is transmitted to the transmitting side, and the transmitting side determines whether there is any loss of data retransmitted from the status data and then loses it. The data can be retransmitted, and the receiving side can deliver the received data to the upper layer immediately after the state data transmission, thereby reducing the time required for the retransmission processing of the lost data.

Description

ESTIMATED PDU COUNTER CONTROLLING METHOD FOR RADIO LINK CONTROL PROTOCOL}

The present invention relates to an EPC control method of the RLC protocol, and in particular, when a PDU transmission error occurs in the Radio Link Control (RLC) layer of the WCDMA protocol, The present invention relates to an EPC control method of an RLC protocol for more efficiently performing an EPC (Estimated PDU Counter), which is a retransmission mechanism of a status PDU (status PDU) for processing.

In general, a protocol data unit (PDU) is a technical name for a unit of granular data block exchanged between two entities within a protocol of a specific layer, and many people refer to a "PDU" or "frame". Rather than being strictly separated by "," every data unit moving through the network is often called just a "packet."

In addition, an EPC (Estimated PDU Counter) is a mechanism used to schedule retransmission of a lost PDU when reporting a status from a receiving side to a transmitting side. There is a new status report for the PDUs.

At this time, the status report is made by a status PDU, and the time between the two status reports is controlled by "Timer_EPC" and "VR (EP)".

Here, the "Timer_EPC" is a round-trip delay for receiving the first AMD PDU retransmitted after sending a status PDU, which is determined by a higher layer.

In addition, the "VR (EP)" is initialized to the number of retransmission request PDUs required for the most recent status report, and is reduced by the number of PDUs received during each TTI (Transmission time interval, time unit of data transmission). When VR (EP) "is 0, the most recent status report checks whether all PDUs requested for retransmission have been received, and if a requested PDU is not received, a new status PDU is sent to request retransmission.

As described above, the RLC must first process the PDU retransmission that has not been received. Therefore, it is important to quickly send a status PDU from the receiving side to the transmitting side.

However, in the related art, when the VR (EP) value becomes 0 as described above, since a status PDU is sent after verifying whether or not the PDU is received, a large load is caused in time.

Accordingly, the present invention was created to solve the above-mentioned conventional problems. When the PDU transmission error (missing PDU) occurs in the Radio Link Control (RLC) layer of the WCDMA protocol, An object of the present invention is to provide an EPC control method of an RLC protocol that can efficiently perform an EPC (Estimated PDU Counter), which is a retransmission mechanism of a status PDU.

The present invention for achieving the above object is, in the mobile communication system, in the mobile communication system, to confirm the data lost in the data (PDU: Protocol Data Unit) received from the transmitting side and retransmitted for the lost data When the request is made, the receiver sends the status data (STATUS PDU) at that time regardless of the loss of the retransmitted data after a set time (Timer EPC) corresponding to the number of data to be retransmitted. The transmitter determines whether there is any loss of data retransmitted from the state data and retransmits the lost data.The receiver transmits all received data immediately to the upper layer after the state data is transmitted, and retransmits the lost data. Characterized in that it is made to reduce the time required for processing.

When the value of the "VR (EP)" is 0, the present invention does not go through a process of determining whether to send a status PDU by checking whether all PDUs requested for retransmission are received, and a new status PDU (STATUS PDU). Is sent to the sender unconditionally to determine whether to send again.

That is, the present invention is a good case if the situation does not receive all the requested PDUs, even if not, sending a status PDU (STATUS PDU) containing only NO_MORE SUFI (Super Field), it is more than processing a high-speed data It will work efficiently.

Here, "NO_MORE SUFI" is one of data field items of the status PDU, and means that there is no more data to be resent (no more data).

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described.

1 is a state diagram illustrating an EPC control process of an RLC protocol according to the present invention. It is assumed that one PDU is received per TTI and the window size is 5.

Since the window size is 5, the transmitting radio link control (RLC) 2 sends five PDUs (PDU # 1 to PDU # 5) to the receiving radio link control (RLC) 1. Lost LOST PDUs (PDU # 1 to PDU # 4) and only the last PDU (PDU # 5) is successfully received, the RLC1 contains a status PDU containing information about the four lost PDUs. ) Is scheduled and sent to the sender.

In addition, "VR (EP) = 4" of RLC1 is set, and one PDU requested for retransmission is received during "Timer EPC".

In the present embodiment, after "PDU # 1" is retransmitted first, "VR (EP) = 3" is set, and after "PDU # 2" is retransmitted during "Timer EPC", it becomes "VR (EP) = 2". . Then, during 2 TTIs, that is, while "VR (EP) = 0", "PDU # 3 and PDU # 4" were not received.

In this case, conventionally, since the reception of the PDU is verified in order to determine whether to send a status PDU, that is, whether to request retransmission of the PDU, it takes a lot of time in the present invention. It is necessary to determine whether to send the status PDU by sending the status PDU at that time to the sender without verifying whether the PDU has been received and determining whether or not to retransmit by viewing the status PDU. By eliminating time, the processing speed is increased accordingly.

In other words, if all of the PDUs requesting retransmission are received, the conventional state does not send a status PDU through the PDU reception verification process, but the present invention unconditionally transmits a status PDU indicating that there is no data to be retransmitted without such verification process. Done.

Therefore, when the retransmission PDU is requested again, the method according to the present invention has the effect of requesting and retransmitting faster than the conventional method.

Accordingly, after the status PDU is sent to the transmitter in FIG. 1, "VR (EP) = 2" is set, and after "PDU # 3" is retransmitted during "Timer EPC", "VR (EP) = 1" is obtained. After re-transmitting "PDU # 4" during "Timer EPC", it becomes "VR (EP) = 0" and unconditionally indicates the status PDU indicating that there is no data to be retransmitted without going through PDU reception verification process as described above. Will be sent.

That is, in the conventional case, when all of the PDUs requested for retransmission are received as described above, the PDU is received or not for verifying whether to send the status PDU. However, in the present invention, time loss is avoided by not performing such a verification process. It is effective to prevent.

For reference, in FIG. 1, the PDU to be transmitted by the transmitting side undergoes a preprocessing process that is transmitted to RLC2 through the primitive (RLC_AM_DATA_REQ) in the Packet Data Convergence Protocol (PDCP) 2 that is higher, and the primitive CRC_CONFIG_REQ on the receiving side. RLC1 receives all PDUs through the retransmission process to the upper layer (PDCP1) through the primitive (RLC_AM_DATA_IND).

As described above, the EPC control method of the RLC protocol of the present invention includes a status PDU (status) for processing a PDU transmission error (missing PDU) in the Radio Link Control (RLC) layer of the WCDMA protocol. There is an effect of improving the efficiency of the EPC (Estimated PDU Counter) which is a retransmission mechanism of the PDU.

1 is a state diagram showing an EPC control process of the RLC protocol according to the present invention.

Claims (1)

In the mobile communication system, when the lost data is checked in the data (PDU: Protocol Data Unit) received from the transmitting side, and retransmission of the lost data is requested. After the set time (Timer EPC) corresponding to the number of data to be retransmitted, the receiving side transmits the status data (STATUS PDU) at that time regardless of whether there is any loss of the retransmitted data. The transmitter determines whether there is any loss of data retransmitted from the state data and retransmits the lost data. The receiving side transfers all received data immediately to the upper layer after the state data is transmitted, thereby reducing the time required for the retransmission processing of the lost data.