KR100580842B1 - Transmission method for error status, and wireless communication system using the same - Google Patents

Abstract

The present invention relates to an error state transmission method and a mobile communication system using the same. The mobile communication system according to the present invention comprises: a transmitter for generating a PDU by dividing an SDU into a plurality of SDU segments, generating a header and connecting the SDU segment; And a receiver that combines the PDUs sent from the transmitter, removes the header to generate an SDU, and, if not receiving all the data in the PDU, requests a retransmission from the transmitter, the receiver comprising one error in successive error PDUs. Error information is transmitted in data units, and some of the error information is transmitted in code words.

Data Transmission, Error, Status Information, Mobile Communication System, Retransmission

Description

Error status transmission method and mobile communication system using the same {TRANSMISSION METHOD FOR ERROR STATUS, AND WIRELESS COMMUNICATION SYSTEM USING THE SAME}

1 illustrates data transmission in the RLC response mode of a W-CDMA system.

2 illustrates a conventional method of transmitting status information in a list manner.

3 illustrates a conventional method of transmitting status information in a relative list manner.

4 illustrates a conventional method of transmitting state information in a bitmap manner.

5 illustrates an SDU, a PDU, and a header of a system to which an error state information transmission method according to an embodiment of the present invention is applied.

FIG. 6 illustrates a method of transmitting error status information when a reception is not performed in units of PDUs according to an embodiment of the present invention.

FIG. 7 illustrates an example of a specific method of transmitting error status information when the reception is not performed on a PDU basis according to an embodiment of the present invention.

8 illustrates a method of transmitting an error state when some data of the PDU is not received according to an embodiment of the present invention.

9 illustrates an example of a specific method of transmitting error status information when some data of a PDU is not received according to an embodiment of the present invention.

The present invention relates to a mobile communication system, and more particularly, to a method for transmitting an error state in a mobile communication system.

One method of controlling an error generated by a channel environment in a communication system is to retransmit data in which an error occurs. Retransmission is a method in which a receiver transmits information about a reception state of data to a transmitter so that the transmitter retransmits data when an error occurs. The retransmission method has been adopted, etc. in 3GPP (3 ^rd Generation Partnership Project) W-CDMA (Wideband Code Division Multiple Access) system, a mobile communication system.

1 illustrates data transmission in a radio link control (RLC) acknowledgment mode of a W-CDMA system.

As shown in FIG. 1, the transmitter 10 includes a service data unit (SDU) division unit 11, a protocol data unit (PDU) retransmission management unit 12, and a PDU generation unit 13. 20 includes an SDU assembly unit 21 and a PDU retransmission management unit 22.

Hereinafter, a conventional error state transmission method will be described with reference to FIG. 1.

The SDU divider 11 of the transmitter 10 receives data called SDUs and divides the data into data sizes to be transmitted. Thereafter, the PDU generating unit 13 attaches a header to the divided SDU and transmits it in an output data unit called a PDU.

The SDU assembly unit 21 of the receiver 20 generates an SDU by assembling a PDU transmitted from the transmitter 10. The retransmission assigns a unique sequence number in the header transmitted by the transmitter 10, detects a data sequence number that failed to be received by the PDU retransmission management unit 22 of the receiver 20, and transmits the data to the transmitter 10. This is done by reporting the reception status information. That is, the transmitter 10 which has received the failed sequence number retransmits the corresponding PDU again and overcomes the error.

In the RLC of W-CDMA, the state information transmission method in which the receiver 20 transmits an errored sequence number to the transmitter 10 includes a list, a relative list (RLIST), and a bitmap (BIT-MAP). There is a way.

2 illustrates a conventional method of transmitting status information in a list manner.

As shown in FIG. 2, the list method transmits a list of sequence numbers in which an error occurs and reports a maximum of 16 units in which data having an error occurs continuously as one unit. It is a method of transmitting the first sequence number of the generated data and the number of sequences in error.

In the relative list method, as shown in FIG. 3, the first sequence number, codeword, and number of codewords of data having an error are transmitted. The codeword has the advantage of reducing the number of bits required because it transmits a relative difference between sequence numbers of the data in error.

In the bitmap method, as shown in FIG. 4, the successfully received data is 1 and the unsuccessful data is 0, thereby reporting the first data sequence number where an error occurred and the number of data sequences represented by 1 or 0. That's how.

This retransmission method is such that the size of data processed in the physical layer is almost semi-static, such as W-CDMA and cdma2000 systems, which are 3rd generation mobile communication systems, and power control is performed for changing wireless channels. It is applicable to the system that transmits the data by controlling it, and it is difficult to apply to the method of changing the data amount according to the channel environment such as HSDPA and EV-DV, which is the system after the W-CDMA system. There was a problem.

Another conventional technique for transmitting an error state is that disclosed in Korean Laid-Open Patent Publication No. 2003-0039770.

The error state transmission method disclosed in Korean Patent Laid-Open Publication No. 2003-0039770 is a method of coding a superfield in a 3GPP W-CDMA RLC layer with a coding method suitable for an error type of state information received at a receiving side. If it is low, it is coded by the RLIST superfield coding method, and when the frequency of errors is high, it is coded by the LIST superfield coding method.

This conventional technique arbitrarily selects one of three superfield coding methods regardless of the current traffic conditions, creates and transmits a status PDU, and the receiving end views the superfield type field value in the received status PDU and then statuses accordingly. Since the information is decoded, it is impossible to adequately cope with the error type of the received PDU, which causes a defect in deterioration of RLC operation performance.

An object of the present invention is to control an error by providing a method for a receiver to transmit reception status information to a transmitter in a system having a variable data size.

Another object of the present invention is to provide an error state transmission method that can appropriately correspond to an error type of a PDU.

In accordance with one aspect of the present invention, a mobile communication system includes: a transmitter for generating a PDU by dividing an SDU into a plurality of SDU segments, generating a header, and connecting the SDU segment; And a receiver for combining the PDUs transmitted from the transmitter, removing the header to generate the SDU, and requesting retransmission from the transmitter if all data of the PDU has not been received, the receiver receiving a continuous error. Error information is transmitted using one PDU as one error data unit, and a part of the error information is transmitted as a codeword.

In the mobile communication system according to an aspect of the present invention, the error information includes the number of consecutive error PDUs, the sequence number of the first PDU of the PDU in error, the number of consecutive error sequences, and the first PDU in the next unit in which the error occurs. Relative differences between sequences.

In the mobile communication system according to an aspect of the present invention, the receiver determines that a difference between the sequence number of the first PDU in which the error occurs in the error data unit and the sequence number of the first PDU in the previous error data unit among the information of the error PDUs is determined. The code is transmitted in a code and manner, and the remaining information is transmitted by allocating fixed bits.

In a mobile communication system according to an aspect of the present invention, the sizes of the plurality of PDUs vary with time.

In the mobile communication system according to an aspect of the present invention, when the receiver does not receive some data of the transmitted PDU, the receiver transmits some error PDU information about some data of the unreceived PDU to the transmitter.

In the mobile communication system according to an aspect of the present invention, the partial error PDU information includes the number of sequences in which an error occurs, the sequence number in which an error occurs, the number of partition PDUs received successfully, and the starting point of some data successfully received. Fields and endpoints.

An error state transmission method according to an aspect of the present invention includes a first step of recognizing an error state when the data is not received for a predetermined time; A second step of setting consecutive data units in one error data unit when the error occurs in a constant data unit unit; And a third step of transmitting information of the error data unit, wherein a part of the information of the error data unit is transmitted as a codeword.

An error state transmission method according to another aspect of the present invention includes a first step of recognizing an error state when the data is not received for a predetermined time; If the error occurs in a portion of a data unit that is received, a second step of transmitting error information about the partial data to the transmitter, wherein the error information includes the number of sequences in which the error occurred, a sequence number in which the error occurred, The number of split PDUs received successfully, including the start and end points of some successfully received data.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

In the error state transmission method according to an embodiment of the present invention, as shown in FIG. 5, when the transmitting side divides the SDU into data sizes to be transmitted and attaches a header to make the PDU, the receiving side assembles the received PDU to the SDU. Consider the case where it applies to a system that performs the function of creating and outputting.

The transmitting side assigns the sequence of data to be transmitted to a sequence number which is a unique number, records the sequence number of data in the header, and transmits it. Since the size of the PDU transmitted by the transmitter varies with time, when the PDU is not successfully received, when the size of the PDU that can be transmitted is reduced, the PDU is divided and retransmitted.

The receiving side assembles the divided PDUs into one PDU, and then assembles them into SDUs. In order to assemble the divided PDU, the transmitting side records the corresponding sequence number, start point and end point, which are information necessary for assembling the PDU, in the header and transmits them. In addition, various necessary information is recorded in the header so that the receiving side can assemble the SDU.

Hereinafter, an error state transmission method according to an embodiment of the present invention will be described.

According to an embodiment of the present invention, an error state transmission method may include a case in which a receiver does not successfully receive all data of a PDU even after a certain time (type = 0) and a case in which some data of the PDU is successfully received (type = 1). ) Can be divided into the transmission method.

6 illustrates a method of transmitting error status information when data is not received in units of PDUs according to an embodiment of the present invention.

That is, when data is not received in units of PDUs (type = 0), the receiver transmits the information as shown in FIG. 6 to the transmitter, thereby requesting retransmission of the PDUs not received.

At this time, the number of PDUs in the unit (LENGTH), the sequence number of the first PDU in error (SN ₁ ), the number of consecutive PDUs in error (L _i ) Then, the difference CW _i between the sequence number of the first PDU in which the error occurred and the first sequence number in the previous unit is transmitted. LENGTH, SN ₁ and L ₁ allocate and transmit a fixed bit. CW _i allocates a fixed bit or transmits it in a codeword manner. The codeword method indicates that data is contiguous with the next 4 bits if the fourth bit is 1 in 4 bits, and the next 4 bits are separate data. When four bits are gathered to form one data, the fourth bit is read from left to zero data. For example, 9 is expressed as 0011 0010. When expressed as a code word, the number of bits required varies according to the number to be expressed, so a variable number of bits is used.

For example, if all data of the PDU corresponding to the 8th, 9th, 10th, 15th, 16th, and 25th sequence numbers are not received, the unit (LENGTH) of the sequence in which the error occurs is 3 (8, 9, 10 is the first). Second unit, 15, 16 is the second unit, 25 is the third unit), and the first sequence number of each unit is 8, 15, 25, respectively. Since the first sequence number (SN ₁ ) is 8 in the first sequence unit, and two times No. 9 and 10 have consecutive errors, the number of errors (L ₁ ) is 2 and the first sequence in the second sequence unit is 15, so CW ₁ becomes 7 (= 15-8). Since only 16 sequence number has an error, continuous error length (L2) is 1, and the first sequence number of the third sequence unit is 25, so CW ₂ becomes 10 (= 25-15). ₃ ) is zero. In the codeword method, 7 is transmitted to 1110 and 10 to 0101 0010. When LENGTH is allocated to 4 bits, SN ₁ is allocated to 11 bits, and L _i is allocated to 4 bits, transmission can be performed as shown in FIG. 7.

The error state transmission method according to the present invention is similar to the list in that the continuous error occurrence sequence bundle is processed as one unit, but the error transmission method according to the present invention reduces the number of bits required by using a codeword. There is a difference.

In addition, although the relative list is processed in units of PDUs instead of successive units of error reporting, the error status transmission method according to the present invention is different in that it processes units of PDUs in which errors occur continuously.

The list method is efficient when errors occur busily, and the relative list method is efficient for errors that occur at random times. In communication systems, it can be assumed that bursts and random errors occur almost equally during any time. Therefore, it is efficient to adopt both methods and use the list method and the relative list method according to each error occurrence method. However, in order to separate and accommodate each case at the receiving side, the error type that occurred must be known in advance. Complicated operations and time delays are necessary to use both methods selectively. In the present invention, it can be applied to bursted and random errors, the number of bits needed less than the list, there is an advantage that the number of bits required than the relative list in the burst error.

8 illustrates a method of transmitting an error state when some data of the PDU is not received according to an embodiment of the present invention.

If some data of the PDU is not successfully received (type = 1), the receiving side transmits the status information as shown in FIG. 8 to the transmitting side, thereby requesting retransmission of some data of the unreceived PDU.

The status information transmitted by the receiver includes the number of error sequences (LENGTH), the first sequence number (SN ₁ ), the number of partitioned PDUs (L _i ) successfully received in one PDU, and the number of successfully received. It includes the difference between the start point SP _i and the end point EP _i of the split PDU, followed by the sequence number CW _i of the PDU in which the error occurred. LENGTH, SN ₁ , L _i , the starting point (SP ₁ ) of the first divided PDU of the PDU is assigned a fixed bit, and the starting point and the ending point except the starting point (SP ₁ ) of the first divided PDU of the PDU are codeword methods. It can be transmitted by marking with.

For example, if start point 10, end point 20, start point 0, end point 20, sequence number 15, end point 25, start point 30, start point 30, and end point 35 of sequence number 8 were successfully received as LENGTH 3, do. SN ₁ becomes 8, L ₁ becomes 1, SP ₁ becomes 10, and EP ₁ becomes 10 (= 20-10). CW ₁ becomes 2 (10-8), L ₂ becomes 1, SP ₁ becomes 0, EP ₁ becomes 20 (= 20-0). CW ₂ is 5 (15-10), L ₃ is 2, SP ₁ is 15, EP ₁ is 10 (= 25-15), SP ₂ is 5 (= 30-25), EP ₂ is 5 (= 35-30). If LENGTH is assigned to 4 bits, SN ₁ to 11 bits, starting point SP _i 8 bits, and L _i to 4 bits, as shown in FIG. 9, transmission can be performed.

Thus, according to an embodiment of the present invention, in order to transmit more data, such as HSDPA and EV-DV, which are systems after the W-CDMA system, the power is fixed and changed to an appropriate amount of data according to the channel environment. In a system for transmitting data at a rate, it is possible to efficiently provide reception status information to a transmitting side.

In the above, the error status transmission method according to an embodiment of the present invention has been described. However, the above-described embodiment is merely one embodiment to which the concept of the present invention is applied, and the scope of the present invention is not limited to the above embodiment, and various modified embodiments are formed by applying the concept of the present invention as it is. can do.

According to the present invention, when all the data of the PDU is not successfully received, a small bit is used because the sequence number where the error occurs continuously is one unit, and the relative difference between the first sequence number between units is transmitted as a codeword. The information can be transmitted through the channel, thereby increasing efficiency.

In addition, when some data of the PDU is not successfully received, since retransmission is requested in units smaller than the PDU, there is an advantage in that the transmitting side variably transmits data for retransmission.

Claims (10)

A transmitter for dividing a Service Data Unit (SDU) into a plurality of SDU segments, generating a header, and connecting the SDU segment to generate a Protocol Data Unit (PDU); And A receiver requesting retransmission from the transmitter when combining the PDUs transmitted from the transmitter, removing the header to generate the SDU, and not receiving all the data of the PDU Including; The receiver transmits error information using consecutive error PDUs as one error data unit, and transmits some of the error information as code words. The method of claim 1, The error information includes a relative difference between the number of consecutive error PDUs, the sequence number of the first PDU of the failed PDU, the number of consecutive error sequences and the first PDU sequence of the next unit in which the error occurred. The method of claim 2, The receiver transmits the difference between the sequence number of the first PDU in which the error occurs in the error data unit and the sequence number of the first PDU in the previous error data unit among the information of the error PDUs in a code and manner, and the remaining information is a fixed bit. Mobile communication system to allocate and transmit. The method of claim 1, The size of the plurality of PDUs vary in time. The method of claim 1, And when the receiver fails to receive some data of the transmitted PDU, transmits some error PDU information about some data of the not received PDU to the transmitter. The method of claim 5, The partial error PDU information includes a number of sequences in which an error occurs, a sequence number in which an error occurs, a number of split PDUs received successfully, and start points and end points of some successfully received data. In a method for transmitting an error state at a receiver receiving data from a transmitter, A first step of recognizing an error state when the data is not received for a predetermined time; A second step of setting consecutive data units in one error data unit when the error occurs in a constant data unit unit; And A third step of transmitting information of the error data unit to the transmitter; Including; And a part of information of the error data unit is transmitted in a codeword. The method of claim 7, wherein The error data information is the number of data units in the error data unit, The sequence number of the first data unit where the error occurred, The number of said data units that subsequently failed, and And a difference between the sequence number of the first data unit in which the error occurs in the error data unit and the sequence number of the first data unit in the previous error data unit. The method of claim 7, wherein The difference between the sequence number of the first data unit in which the error occurs in the error data unit and the sequence number of the first data unit in the previous error data unit among the error data information is transmitted in a sign and a manner, and the remaining information is assigned a fixed bit. Method of transmitting error status at the transmitting receiver. In a method for transmitting an error state at a receiver receiving data from a transmitter, A first step of recognizing an error state when the data is not received for a predetermined time; And A second step of transmitting error information on the partial data to the transmitter when the error occurs in a part of the received data unit Including; The error information includes a number of sequences in which an error occurs, a sequence number in which an error occurs, a number of split PDUs received successfully, and start points and end points of some successfully received data.

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