KR100344981B1 - Transmission Method for discard information of time based service data unit - Google Patents

Abstract

According to the present invention, when the time-based SDU discard function is used in the 3GPP RLC layer, it is possible to reduce the amount of signals due to the discard information of the same type, and the discard information of the time-based service data unit according to the present invention. The transmission method may include: checking whether protocol data units corresponding to the service data unit are transmitted when the service data unit times out at the receiving end; Discarding the service data unit immediately without notifying the receiving end if none of the corresponding protocol data units have been transmitted as a result of the inspection; And retransmitting a sequence number request of a protocol data unit corresponding to a service data unit to be transmitted next after the discarding.

In this case, the transmitted service data unit notifies the reception information to the receiving end, and transfers the sequence information to the unsent sequence number of the start protocol data unit of the next service data unit and transmits the information sequentially.

According to the present invention, when the service data unit is timed out, it is possible to check whether the PDUs corresponding to the SDU are transmitted and to transmit only the discard information of the SDU which is not transmitted, thereby allowing the discard information of one SDU. The amount of signals required can be reduced by not sending the amount of bits required to inform.

Description

Transmission method for discard information of time based service data unit

Disclosure of Invention According to the present invention, when using the discard information function of a service data unit over time in a 3GPP radio link control (RLC) layer, a disk-based service data unit can be used to reduce the amount of signals in the same type to increase overall efficiency. It relates to a card information transmission method.

In the conventional radio link control layer, the second layer of 3GPP is a protocol layer for controlling the data link and corresponds to the second layer of the OSI 7 layer model. The service data unit (SDU) discard function is a function used in the RLC layer.

The SDU discard function is divided into three methods according to the method, one of which is a time-based SDU discard function.

This time-based SDU discard function starts the timer as soon as the RLC receives the SDU from the upper level, and acknowledges the ACK (Acknowledgment) from the receiver even if the SDU is not transmitted or transmitted until this time expires. If a signal is not received, the corresponding SDU is discarded and the receiver informs the user of the discarded SDU.

Figure 1 shows an example of the discard function of such a time-based SDU. Referring to FIG. 1, when the RLC receives SDU0 to SDU3 from the upper layer and transmits the SDU0 to SDU3, the transmitting end transmits a protocol data unit (PDU) corresponding to a service data unit (SDU). PDU0 and SDU1 are PDU1, SUD2 is PDU1 to PDU2, and SDU3 is sequentially assigned PDU3 to PDU6 and the sequence numbers SN0, SN1, ..., SN6 to the PDU.

Here, when the transmitter transmits PDU0 to PDU3 corresponding to SDU0 to SDU2, PDU0 and PDU3 are lost during transmission, and PDU4 to PDU7 are not yet transmitted.

At this time, when the time of SDU0 ~ SDU3 expires, the transmitting end discards SDU0 ~ SUD3 and the corresponding PDU (Protocol Data Unit), that is, PDU0 ~ PDU6, from the sending buffer and uses this MW SUFI (Move Receiving Window Super Field) information. ) And send it to the receiver.

The structure of the MRW SUFI is as shown in FIG. 1, where length represents the number of SDUs discarded as 4 bits, and SN_MRWi is 12 bits, starting with the next SDU of the i-th discarded SDU. Represents a sequence number (SN) of a PDU. Where i is an integer from 1 to n.

That is, MRW SUFI represents 0100 because 4 bits represent the number of 4 SDUs, SN_MRW ₁ = 1 is the sequence number of SN 2 of PDU 1 of SDU ₁ , and SN_MRW 2 = 2 is a PDU occupying part of SDU 2. Sequence number of 1 (SN = 1), SN_MRW ₃ = 3 is the sequence number of PDU 3 of SDU3 (SN = 3), SN_MRW ₄ = 7 to send the sequence number (SN = 7) of PDU 7 of SDU4 do.

The receiving end receiving the MRW SUFI discards the PDUs (PDU0 to PDU6) corresponding to SUD0 to SDU3 in the receiving buffer, and sends a sequence number SN7 of PDU7 to be received next. The receiving end confirms that the receiving end has successfully successfully discarded the receiving end, and resumes transmission from PDU7 corresponding to the sequence number SN7 of the next SDU.

However, FIG. 2 has the same structure as in FIG. 1 except that SDU0 to SDU3 time out when PDU3 corresponding to SDU 3 is not transmitted and remains in the transmission buffer of the transmitter. In this case, the diskette information is also transmitted to MRW SUFI.

The discarded information is SN_MRW ₁ = 1 is the sequence number (SN = 1) of PDU 1 of SDU1, SN_MRW2 = 2 is the sequence number (SN = 1) of PDU 1 occupying a part of SDU2, SN_MRW ₃ = 3 is the sequence number (SN = 3) of PDU 3 of SDU3, and SN_MRW ₄ = 7 sends the sequence number (SN = 7) of PDU 7 of SDU4, where the discard information (SN_MRW) of SDU4. ₄ = 7) is sent to the receiving end, which wastes radio resources.

As shown in FIG. 2, since the PDU corresponding to SDU3 is not actually transmitted, there is no need to send the discard information about the SDU3, but in the conventional method, when the time expires, the discard information is unconditionally sent to the receiving end. The efficiency of radio resources is low. Since 12 bits are used to send the diskette information of one service data unit (SDU), if many service data units (SDUs) are discarded without being transmitted, a lot of resources are wasted in sending the diskette information. will be.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problem. When using the time-based SDU discard function, the service does not immediately send the dispatch information even if the service data unit has timed out. It checks whether the protocol data unit corresponding to the data unit has been transmitted, and does not send the diskette information of the protocol data units of the corresponding service data unit, and the sequence number of the protocol data units corresponding to the next service data unit to be sent receives the start. It is an object of the present invention to provide a disk transmission method of a time-based service data unit in a radio link control layer that sequentially renumbers and transmits a number sent to the side.

1 is a diagram illustrating an example of transmitting the discard information of a time-based service data unit in a conventional radio link control layer.

2 is a diagram showing an example of transmitting the discard information of a time-based service data unit in a conventional radio link control layer.

FIG. 3 is a flowchart illustrating a method of transmitting discard information of a time-based service data unit in a radio link control layer according to the present invention. FIG.

4 is a view showing an embodiment of a method of transmitting a diskette information of a time-based service data unit in a radio link control layer according to the present invention.

In order to achieve the above object, the present invention provides a time-based service data unit discard function transmission method,

A method for transmitting time-based service data unit diskette information in a radio link control layer,

Checking, at the transmitting end, if the service data unit has timed out, whether protocol data units corresponding to the service data unit have been transmitted;

Discarding the service data unit immediately without notifying the receiving end if none of the corresponding protocol data units have been transmitted as a result of the inspection;

And retransmitting a sequence number request of a protocol data unit corresponding to a service data unit to be transmitted next after the discarding.

Preferably, when a part of a test result of whether protocol data units corresponding to the service data unit are transmitted is transmitted, the reception information is notified to the receiver only for the transmitted service data unit.

Preferably, when receiving from the receiving end to transmit from any sequence number, the sequence number of the starting protocol data unit of the next service data unit which has not been transmitted is changed to the arbitrary sequence number, and the sequence number of the subsequent protocol data unit is also changed. Discard information transmission method of a time-based data service unit, characterized in that the re- numbered after consecutive transmission.

Hereinafter, with reference to the accompanying drawings as follows.

FIG. 3 is a flowchart illustrating a method of transmitting a discard information of a time-based service data unit according to the present invention, and FIG. 4 is a view showing an embodiment of a method of transmitting discard information of a time-based service data unit according to the present invention. .

Referring to FIG. 4, when a transmitter attempts to transmit time-based service data units SDU0 to SDUn from a transmitter to a receiver, a protocol data unit PDU0 to PDUn corresponding to each service data unit SDU0 to SDUn is assigned to a sequence number. When transmitting with SN0 to SNn, when the service data unit SDU3 is timed out, it is confirmed that the protocol data unit PDU of the transmitted service data unit SDU is transmitted without transmitting the discard information to the receiving end. If it is transmitted later, only the transmitted protocol data units (PDU0 to PDU6) are loaded on MRW SUFI to send the diskette information.

Further, when receiving a signal to transmit from the protocol data unit having the sequence number SN3 from the transmitting end, from the sequence number SN3 not transmitting the sequence number SN7 of the start protocol data unit PDU7 of the next service data unit SDU4. It is changed to send sequentially.

Referring to the accompanying drawings, a method for transmitting the discard information of the time-based service data unit in the radio link control layer of the present invention as described above is as follows.

3 and 4, when the RLC transmits the SDUs 0 through SUD3 received from the upper level to the receiver (S101), the transmitter transmits the receiver to the receiver SDU0, PDU0, SDU1 to PDU1, SUD2 to PDU1 to PDU2, and SDU3 to PDU3. Sequentially transmits the sequence numbers SN0, SN1, ..., SN6 to ~ PDU6.

Here, when the transmitting end transmits PDU0 to PDU3 corresponding to SDU0 to SDU2, PDU0 and PDU1 are received, but the request signal (ACK) for reception is lost during transmission, PDU2 is lost during transmission, and PDU3 to PDU7 are still There is no transmission.

At this time, if the timer of SDU0 to SDU3 expires (S102), the transmitting end discards SDU0 to SUD3 and the corresponding PDU (Protocol Data Unit), that is, PDU0 to PDU6, from the transmission buffer and checks how many SDUs have been transmitted. (S103).

As a result of the check, even if a portion of the discarded SDUs is notified to the receiver by using MRW SUFI only for the transmitted SDUs (S104), the SDUs which are not transmitted are immediately discarded (S105). This informs the receiving end that the discard information is discarded only for SDU0 to SDU2, and SDU3 does not notify the receiving end because no PDU is transmitted.

In detail, the structure of the MRW SUFI is as shown in FIG. 4 when the diskette information is sent to the receiving end in a MRW SUFI (Move Receiving Window Super Field), where the length of the discarded SDU is 4 bits. SN_MRWi represents the number of 12 bits and represents the sequence number (SN) of the PDU starting with the next SDU of the i-bit discarded SDU. Where i is an integer from 1 to N.

That is, SN_MRW ₁ = 1 is the sequence number (SN = 1) of PDU 1 of SDU1, SN_MRW ₂ = 2 is the sequence number (SN = 1) of PDU 1 occupying a part of SDU2, and SN_MRW ₃ = 3 is Only the sequence number (SN = 3) of PDU 3 of SDU 3 is sent.

Then, the receiving end discards PDU0 to PDU2 corresponding to SDU0 to SDU2, and sends a signal to the transmitting end to transmit from the PDU having SN = 3.

The transmitting end changes the sequence number of the starting PDU to SN_MRW _LENGTH for the next SDU to be transmitted, and renumbers and transmits subsequent PDUs consecutively to the sequence number (S106). In other words, the sequence number of the PDU7 started by the SDU4 that has not been transmitted is set to SN = 3, and the subsequent PDU8 is sequentially renumbered such as SN = 4 and PDU9 as SN = 5 and then transmitted to the receiver (S107).

When the time of the transmitted SDU is completed, it is checked whether PDUs corresponding to the SDU have been transmitted, and if the SDU is transmitted, notify the receiving party about the SDU only, and if not, notify the receiving party. Immediately discards the SDU. When the retransmission request is made, the sequence number of the next PDU to be sent is changed to the sequence number that is not sent, and the sequence number of the next PDU is changed from the sequence number to be transmitted.

As described above, in the present invention, the method for transmitting a diskette of a time-based service data unit checks whether PDUs corresponding to the SDU are transmitted when the service data unit is timed out, and discards information of the service data unit that is not transmitted. By only transmitting the data, the amount of signals required to inform the card information can be reduced, since the amount of bits required to inform the card information of one service data unit is not sent.

In addition, when many service data units are discarded without being transmitted, radio resources can be saved much more than before, so that limited radio resources can be used more efficiently, and the overall efficiency is increased.

Claims (3)

A method for transmitting time-based service data unit diskette information in a radio link control layer, Checking, at the transmitting end, if the service data unit has timed out, whether protocol data units corresponding to the service data unit have been transmitted; Discarding the service data unit immediately without notifying the receiving end if none of the corresponding protocol data units have been transmitted as a result of the inspection; And retransmitting a sequence number request of a protocol data unit corresponding to a service data unit to be transmitted next after the discarding. The service data unit according to claim 1, wherein when a part of a test result of whether the protocol data units corresponding to the service data unit are transmitted is transmitted, the reception data is notified to the receiver only for the transmitted service data unit. How to send diskette information. 2. The method according to claim 1, wherein when receiving from the receiving end to transmit from any sequence number, the sequence number of the starting protocol data unit of the next untransmitted service data unit is changed to the arbitrary sequence number and thereafter the sequence of the protocol data unit. Discard information transmission method of a time-based data service unit, characterized in that the sequence number is continuously renumbered and transmitted.