KR100369629B1 - Method for converting signaling radio link protocol in IMT-2000 mobile communication system - Google Patents

Abstract

According to the present invention, when signaling data is transmitted and received between an IMT-2000 base station and a mobile station through a signaling radio link protocol, when a sequence of frame segments is changed and transmitted, a message is immediately damaged through a sequence check before frame recombination at a receiving side. The present invention provides a method for converting a signaling radio link protocol of a next generation mobile communication system (IMT-2000) to detect a signal, and the present invention provides a method of converting a signaling message in a MAC sub-layer of a signaling radio link protocol layer. Each segment is sent to the physical layer with message sequence bits indicating the sequence of messages, and the MAC sublayer on the receiving side checks the sequence bits and checks whether they are received in the transmission order. Was sent out of order By allowing message frames to be discarded immediately without storing them in the fur, it is possible to detect the validity of the signaling messages before they do without a cyclic redundancy check (CRC), thereby improving the performance of the overall system. do.

Description

Method for converting signaling radio link protocol in IMT-2000 mobile communication system}

The present invention relates to a radio link protocol of a next generation mobile communication system (International Mobile Telecommunications-2000; IMT-2000), and in particular, a medium access control (MAC) sublayer of a signaling radio link protocol layer between a mobile station and a base station. By adding a limited form of sequence check to the sub-layer, the message segments can be reordered and discarded immediately without being stored in a buffer if they are sent. The present invention relates to a signaling radio link protocol (SRLP) conversion method of an IMT-2000 mobile communication system capable of detecting a system and improving performance of an overall system.

In general, the wireless protocol of the IMT-2000 system can be classified into three types, as shown in FIG. 1. Among them, Layer 2 (Link Layer) is composed of two sub-layers of Link Access Control (LAC) and Medium Access Control (MAC). The LAC sublayer performs an Automatic Repeat Request (ARQ) function to ensure reliable transmission of the message, and the MAC sublayer mainly performs a segmentation and reassembly (SAR) function.

In the IMT-2000 system, a signaling radio link protocol (SRLP) is used as a protocol for the MAC sublayer when signaling data is transmitted between a mobile station and a base station through a dedicated channel.

SRLP is simpler than RLP (Radio Link Protocol), a protocol for transmitting traffic data. That is, as shown in Figure 2,

When the LAC Service Data Unit (SDU) is transmitted from the LAC sublayer, the MAC sublayer adds a length field (LEN) and a CRC field to it, divides it into segments, and then divides the SOF (SOF) indicating the beginning of the frame to each segment. Start Of Frame) is attached to the physical layer.

These SRLPs do not provide basic sequence checks, especially for message segments. Therefore, after recombining all the message segments, it is possible to check whether the message is damaged only through the CRC, thereby preventing the immediate action on the damaged message.

In addition, since all message segments must be stored in the buffer until recombination of one signal message frame, the buffer may be wasted.

Therefore, the present invention has been proposed to solve the conventional problems as described above, the object of the present invention is

A message segment is performed by attaching a message sequence bit indicating a sequence of messages to each segment of a signaling message in a MAC sub-layer of a signaling radio link protocol layer between a mobile station and a base station. ), The message frame can be discarded immediately without being stored in the buffer when the order is changed, so that the corresponding signaling message can be detected before the CRC (Cyclic Redundancy Check). It is to provide a SRLP conversion method of the IMT-2000 mobile communication system to improve the performance of the overall system.

Signaling radio link protocol (SRLP) conversion method of the IMT-2000 mobile communication system according to the present invention for achieving the above object,

A method of transmitting a signaling data frame through signaling radio link protocol (SRLP) of an IMT-2000 system,

After dividing the SRLP Protocol Data Unit (PDU) into a plurality of Medium Access Control (MAC) PDUs, assigning a message sequence number in the divided order to attach a sequence bit (SEQ) to the frame segment Transmits to the physical layer by adding a Start Of Frame (SOF) bit indicating the first bit,

Receiving signaling data frame method,

If a signaling message segment is received from the physical layer, a first step of checking whether the receiving buffer is empty and whether the message segment is the first message segment of a frame to be recombined;

If the reception buffer is empty and the received message segment is the first message segment, storing the received message segment in the reception buffer, and storing the length information of the frame to be recombined and the current received message sequence number. Steps;

If the result of the check is that the reception buffer is not empty and the received message segment is not the first message segment, it is determined whether the received message segment is in the transmission order using the stored sequence number and the received sequence number of the received message segment. Inspecting a third step;

If the check result does not match the transmission order, discard the message segment stored in the reception buffer, if the transmission order is correct, buffer the message segment in the reception buffer, store the sequence number of the message segment, and length the frame to be recombined. A fourth step of checking whether as many message segments have been received;

When the message segment is received as long as the frame length to be recombined as a result of the checking, the fifth step of recombining the message segment buffered in the reception buffer is performed.

1 is a radio protocol layer structure diagram of an IMT-2000 mobile communication system;

2 is a frame structure diagram used in a general signaling radio link protocol;

3 is a frame structure diagram used in the SRLP to which the present invention is applied;

4 is a flowchart illustrating a method of generating and transmitting a frame by the SRLP conversion method of an IMT-2000 mobile communication system according to the present invention;

5 is a flowchart illustrating a method of receiving a frame by the SRLP conversion method of an IMT-2000 mobile communication system according to the present invention;

Hereinafter, the SRLP conversion method of the present invention IMT-2000 mobile communication system will be described in detail with reference to the accompanying drawings.

The present invention proposes a protocol for guaranteeing the order in SRLP by adding a message sequence (MSG_SEQ) bit in addition to the SOF (Start Of Frame) bit in the header of the SRLP segment in order to provide a simple form of reliability to the SRLP protocol.

4 is a flowchart illustrating a method of generating and transmitting a frame by the SRLP conversion method of the IMT-2000 mobile communication system according to the present invention.

As shown, padding up to 8 bits to the service data unit (SDU) received from the LAC sublayer (ST11); Attaching a length field (LEN) indicating the length of the padded SDU to the beginning of the SDU and attaching a CRC field to the SDU including the LEN (ST12, ST13); Dividing the SRLP PDU past the CRC field into a plurality of MAC PDUs (ST14); Attaching a SEQ field to each of the divided MAC PDUs in order with a message sequence number (ST15); The MAC PDU to which the SEQ is added is attached to the SOF bit indicating the first bit of the frame and transmitted to the physical layer (ST16 and ST17).

A method of transmitting to the physical layer by attaching a message sequence number to the SRLP frame according to the present invention as follows.

When the LAC SDU is received from the LAC sublayer, padding is performed up to 8 bits (ST11), and then the LEN indicating the length of the LAC SDU and the padded signal data is first attached (ST12). The CRC field is appended to the SDU including the LEN (ST13). When the SRLP PDU is generated in this way, the SRLP PDU is divided into a set length into a plurality of MAC PDUs (ST14).

Then, the message sequence numbers are assigned in the order of division from the SRLP PDU, and each MAC PDU is appended with SEQ 1 bit (ST15). Then, each message sequence is transmitted to the physical layer by attaching an SOF 1 bit indicating the beginning of the frame (ST16, ST17).

In this way, in the reverse radio link of the IMT-2000 system, a message sequence having a message sequence number bit is generated and transmitted to the base station by the SRLP function performing apparatus of the mobile station, and the SRLP function performing apparatus of the base station in the forward wireless link. The message sequence with the message sequence number bit is generated and transmitted to the mobile station.

This method of receiving a message sequence when it is transmitted is shown in FIG.

As shown, the method of receiving a frame by the SRLP conversion method of the IMT-2000 mobile communication system according to the present invention, if a signaling message segment is received, whether the receiving buffer is empty and the first of the frame to which the message segment is to be recombined Checking whether the message is a message segment (ST21-ST25, ST28); If the reception buffer is empty and the received message segment is the first message segment, storing the received message segment in the reception buffer, storing length information of a frame to be recombined and a current received message sequence number ( ST27); If the check result indicates that the reception buffer is not empty and the received message segment is the first message segment, the reception buffer is cleared, the message segment is stored in the reception buffer, the length information of the frame to be recombined and the current reception message sequence number. Storing (ST29); If the result of the check is that the reception buffer is not empty and the received message segment is not the first message segment, it is determined whether the received message segment is in the transmission order using the stored sequence number and the received sequence number of the received message segment. Inspecting step ST30; If the check result does not match the transmission order, discard the message segment stored in the reception buffer, if the transmission order is correct, buffer the message segment in the reception buffer, store the sequence number of the message segment, and length the frame to be recombined. Checking whether message segments have been received (ST26, ST31, ST32); Re-combining the message segments buffered in the reception buffer if the message segments have been received as long as the frame to be recombined as a result of the checking; Performing a CRC on the recombined frame (ST34); If the CRC execution result is normal, the length field and the CRC field are stripped and transmitted to the LAC sublayer (ST34-ST36).

In the method for checking whether the message segment received in the ST30 conforms to the transmission order, 1 is added to the stored sequence number, the result is calculated by modulo-2, and the value is received. Check whether or not the same as the sequence number of the message segment.

Referring to the method of receiving a frame by the SRLP conversion method of the IMT-2000 mobile communication system according to the present invention as follows.

For the reverse radio link, when the signaling message segment is received from the mobile station, the IMT-2000 base station replaces the first bit of the received message sequence with SOF, replaces the message sequence number bit with MSG_SEQ _r , and replaces the rest with data. (ST21).

Then, it is checked whether the reception buffer is empty, and if it is empty, it is checked whether the received message segment is the first message segment of the frame to be recombined (ST24). In other words, if the SOF is not "1" (the received message segment is not the first message segment of the frame to be recombined), the received message segment is discarded (ST25, ST26). However, if the SOF is "1", since it is the first message segment, it buffers DATA in the reception buffer, stores the value of the LEN field in the message segment, and replaces MSG_SEQ _r with MSG_SEQ _s (ST27).

In addition, if the reception buffer check indicates that the reception buffer is not empty and the received message segment is the first message segment (if the SOF is not "0"), the reception buffer is cleared and data is stored in the reception buffer. Stores length information (LEN). Subsequently, MSG_SEQ _r is replaced with MSG_SEQ _s to store the current received message sequence number (ST28, ST29).

However, if the reception buffer check indicates that the reception buffer is not empty and the received message segment is not the first message segment (SOF is "0"), it is received using the stored sequence number and the sequence number of the received message segment. It is checked whether the message segment meets the transmission order (ST28, ST30). That is, 1 is added to the stored sequence number MSG_SEQ _s , and the result is subjected to modulo-2 operation to check whether this value is identical to the sequence number MSG_SEQ _r of the received message segment.

As a result, if the two values are not the same, i.e., they do not match the transmission order, the data stored in the reception buffer are discarded (ST30, ST26).

However, if the two values are the same, that is, if the transmission order is correct, the data is buffered in the reception buffer, and MSG_SEQ _r (receive sequence number) in the ST30 is replaced with MSG_SEQ _s (ST31).

Then, it is checked whether data has been received by LEN, which is a length of a frame to be recombined (ST32). So if it hasn't received that much, it continues to wait to receive the message segment. However, if data has been received as much as LEN, the data buffered in the reception buffer is re-assembled (ST33).

CRC is performed on the recombined frame, and if it is normal, the length field LEN and the CRC field are stripped to form a LAC PDU and transmitted to the LAC sublayer as shown in FIG. 3 (ST34-ST36). If the result of the CRC is not normal, then the data stored in the reception field is discarded (ST26).

In this way, when the frame segments are reordered and transmitted, corruption of the message can be detected before performing CRC, thereby discarding the damaged frame without recombining the frames.

The frame receiving method according to the present invention as described above is performed in an IMT-2000 mobile station in the case of a forward radio link.

As described above, according to the present invention, when the conventional frame segment is changed and transmitted, it is possible to detect the corruption of the message only after the CRC check is performed after the frame recombination is performed on the receiving side. By sending a sequence number bit indicating that the signal is transmitted, the sequence number bit can immediately identify a transmission sequence error, thereby quickly detecting damage to a message.

And because the message corruption can be known without waiting for recombination of one frame, the received frame segment can be discarded from the buffer immediately, thus avoiding wasting the buffer. In addition, by immediately discarding damaged segments, the overhead of the process can be reduced, improving overall system performance.

Claims (3)

A method for transmitting and receiving signaling data between an IMT-2000 base station and a mobile station through signaling radio link protocol (SRLP), Signaling data frame transmission method, After dividing the SRLP Protocol Data Unit (PDU) into a plurality of Medium Access Control (MAC) PDUs, assigning a message sequence number in the divided order to attach a sequence bit (SEQ) to the frame segment Transmits to the physical layer by adding a Start Of Frame (SOF) bit indicating the first bit, Signaling data frame receiving method, If a signaling message segment is received from the physical layer, a first step of checking whether the receiving buffer is empty and whether the message segment is the first message segment of a frame to be recombined; If the reception buffer is empty and the received message segment is the first message segment, storing the received message segment in the reception buffer, and storing the length information of the frame to be recombined and the current received message sequence number. Steps; If the reception buffer is not empty and the received message segment is the first message segment, the reception buffer is cleared, the message segment is stored in the reception buffer, the length information of the frame to be recombined and the current reception message sequence number. Storing a third step; If the result of the check is that the reception buffer is not empty and the received message segment is not the first message segment, it is determined whether the received message segment is in the transmission order using the stored sequence number and the received sequence number of the received message segment. Inspecting a fourth step; If the check result does not match the transmission order, discard the message segment stored in the reception buffer, if the transmission order is correct, buffer the message segment in the reception buffer, store the sequence number of the message segment, and length the frame to be recombined. A fifth step of checking whether as many message segments have been received; If a message segment is received as long as a frame length to be recombined as a result of the check, performing a sixth step of recombining the message segment buffered in the reception buffer. delete The method of claim 1, wherein the method for checking whether the message segment received in the fourth step conforms to the transmission order. Add 1 to the stored sequence number, calculate the modulo-2 result, and check whether the result value is the same as the sequence number of the received message segment. 2000 SRLP transformation method of mobile communication system.