KR100519332B1 - A Method for Transmitting Packet Data Using Radio Link Protocol - Google Patents

Abstract

The present invention relates to a packet data transmission method using a radio link protocol, the method comprising: receiving a determination result of whether to transmit a subpacket corresponding to a loss expected RLP (Radio Link Protocol) frame of a base station; And transmitting the NAK for the RLP frame without waiting for reception of the RLP frame.

Therefore, if the base station no longer attempts to transmit the lost expected frame, it is possible to solve the problem of unnecessary delay by sending a NAK without waiting for DDW.

Description

A method for transmitting packet data using radio link protocol

The present invention relates to a packet data transmission method using a radio link protocol, and more particularly, to a packet data transmission method using a radio link protocol suitable for quickly transmitting a NAK (Negative AcKnowledgment) for a lost frame.

RLP (Radio Link Protocol) is a protocol for maintaining signal quality in a poor radio section and is a protocol for requesting retransmission when an error occurs.

In other words, it is a protocol that reduces the number of unnecessary transmission / reception processes by requesting retransmission for packets that are transmitted by numbering packets in order to reduce errors occurring in the wireless section.

In addition, the RLP improves the channel usage efficiency of the radio section by using a NAK (Negative AcKnowledgment) based protocol (NAK) that requires retransmission only for an errored RLP frame.

However, since the 1xEV-DV system uses a hybrid-automatic repeat reQuest (H-ARQ) method, the existing RLP needs to be changed.

H-ARQ is a method of combining ARQ and Forward Error Correction (FEC) to improve reliability and throughput when transmitting data in a communication system.

ARQ aims to improve reliability by requiring the retransmission of the same information until the received information is received without error when an error occurs due to the channel environment. The FEC uses an error correction code. The purpose is to correct errors caused by the channel environment.

If the channel environment is good and there is a low frequency of errors in the information sent, only ARQ may be sufficient.

However, when the channel environment is bad, the frequency of errors occurring in the transmitted information increases, and thus the number of times of requesting retransmission increases. This lowers the throughput of the system. Therefore, it has been proposed to use FEC with ARQ, which is H-ARQ.

AAIR, a type of H-ARQ, is used in a 1xEV-DV system. In the process of transmitting one packet to several sub-packets, AAIR determines the length of each sub-packet according to a channel and an environment. It is transmitted differently.

FIG. 1 is a diagram illustrating a method of performing RLP according to the prior art, and since a 1xEV-DV system uses H-ARQ and can transmit several encoder packets to different ARQ channels at the same time, a sequence is performed to an RLP receiver. An earlier (n + 2) RLP frame may be received later than an (n + 3) RLP frame.

In the conventional system, the hatched frame of FIG. 1 is assumed to be a missing frame. However, in the 1xEV-DV system, as shown in FIG. 1, since the received frame may be received later by the H-ARQ, the H-ARQ operation is performed. Decisions on lost frames should be delayed by the time required for.

Therefore, the RLP receiver must wait for the reception of the delay frame by the H-ARQ for a specified time (DDW: Delay Detection Window) before detecting a frame expected to be a lost frame and sending a NAK for the frame.

The DDW value is determined in consideration of the system load degree, the number of ARQ channels, the maximum number of transmissions of the subpacket by H-ARQ, the length of the subpacket, etc. in the service negotiation process. Consider a large value.

As such, since the DDW value is determined to be a large value considering the worst case, for example, when the channel environment is good, for example, when the number of users is small and the system load is small, or when the number of ARQ channels is small and the length of the sub packet is small, There is a problem that the transmission of (NAK) is unnecessarily delayed.

The present invention has been made to solve the above problems, and an object thereof is to provide a packet data transmission method using a radio link protocol to prevent unnecessary transmission of NAK.

delete

delete

delete

delete

delete

The packet data transmission method using the radio link protocol according to the present invention for achieving the above object comprises the steps of receiving a determination result of whether to transmit a subpacket corresponding to a loss expected RLP (Radio Link Protocol) frame of the base station; If it is determined that there is no there is a step of transmitting a NAK for the RLP frame without waiting for a predetermined time. More specifically, the determination whether the transmission is ARQ channel identification information corresponding to the expected loss RLP frame And subpacket sequence information of an ARQ channel and subpacket sequence information of a current ARQ channel corresponding to the ARQ channel identification information. More specifically, the determination result identifies the corresponding ARQ channel. And further comprising information. ARQ (Automatic Repeat Re) quest) receiving a RLP (Radio Link Protocol) frame including a channel ID and an ARQ channel ID sequence number, transmitting an ARQ channel ID and an ARQ channel ID sequence number of a lost expected RLP frame to a HARQ stage; Checking whether the current ARQ channel ID sequence number of the ARQ indicated by the received ARQ channel ID and the received ARQ channel ID sequence number are the same; Determining that the transmission attempt has been stopped, and receiving the determination result and the corresponding ARQ channel ID, and transmitting the NAK without waiting for a predetermined time. More specifically, the two ARQ channels If the ID sequence number is the same, HARQ (Hybrid ARQ) and If the determination is made that and and is characterized in that repeated until the process is not the same for the two ARQ channel ID sequence number. Hereinafter, description of the preferred embodiment of the present invention.

The present invention proposes a method of transmitting a NAK without waiting for DDW when the terminal knows that the base station no longer transmits a sub packet for a frame expected to be a lost frame.

In order to implement the above method, the terminal should know that the base station no longer transmits a subpacket for a frame that is expected to be a lost frame. Therefore, the RLP received from the terminal responsible for H-ARQ to the RLP terminal of the terminal When transmitting a frame, it is proposed to transmit an ARQ Channel IDentifier (ACID) and an ARQ Identifier Sequence Number (AI_SN) together with the RLP frame.

The ARQ Channel IDentifier (ACID) is one of control information used in a 1xEV-DV system and indicates an ARQ channel associated with a transmitted subpacket.

Currently, up to four ARQ channels are supported.

The AR_SN (ARQ Identifier Sequence Number) is one of control information used in a 1xEV-DV system and is used to determine whether a corresponding packet is a new packet or an existing packet.

 The AI_SN value is toggled from '0' to '1' or from '1' to '0' every time a new encoder packet is transmitted. Accordingly, the receiving end compares the AI_SN value of the corresponding subpacket with the AI_SN value of the immediately received subpacket, and if it is the same, determines that the existing packet is transmitted, and if it is toggled, determines that a new packet is transmitted.

Next will be described in more detail with reference to the drawings.

2 is a diagram illustrating an RLP procedure of a mobile terminal using the method proposed in the present invention, and FIG. 3 is a flowchart illustrating an RLP execution procedure according to the present invention.

The H-ARQ terminal 21 in charge of the H-ARQ is transmitted from the terminal to the RLP terminal 22 by including an ARQ Channel IDentifier (ACID) and an ARQ Identifier Sequence Number (AI_SN) in the RLP frame (S201).

The RLP stage 22 receives an RLP frame from the H-ARQ stage 21. The RLP stage 22 compares a sequence of the received RLP frames and compares the ACID and AI_SN of the missing expected RLP frame that are not sequentially received. Is transmitted to the H-ARQ terminal 21 (S202).

The H-ARQ stage 21 compares the current AI_SN value and the received AI_SN value of the ARQ channel corresponding to the received ACID when the ACID and AI_SN of the expected lossy RLP frame are received from the RLP stage 22 (S301). .

As a result of the comparison, if the two values are the same, the H-ARQ process is performed for the expected loss RLP frame, and the process moves to the next subpacket of the corresponding ACID (S302), and the process of step 301 (S301) is performed.

The above process is repeated until the two ARQ channel ID sequence numbers are not the same.

On the contrary, if the two values are different from each other as a result of the comparison, the base station reports that the transmission of the lost prediction frame is completed and transmits the "Yes" signal and the ACID information from the H-ARQ stage 21 to the RLP stage 22 (S302). .

The RLP terminal 22 receiving the "Yes" signal transmits a NAK for a missing frame to the H-ARQ terminal 21 (S303) (304).

The packet data transmission method using the radio link protocol of the present invention as described above can solve the problem of unnecessary delay by sending a NAK without waiting for DDW when the base station no longer attempts to transmit a lost expected frame. It works.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

1 is a view for explaining a conventional process of performing RLP,

2 is a diagram illustrating an RLP procedure of a mobile terminal using the method proposed by the present invention.

3 is a flowchart illustrating a process of performing RLP according to the present invention.

** Description of the symbols for the main parts of the drawings **

21: H-ARQ stage 22: RLP stage

Claims (5)

Receiving a determination result of whether to transmit a subpacket corresponding to a loss expected RLP (Radio Link Protocol) frame of the base station; And transmitting the NAK for the RLP frame without waiting for a predetermined time when it is determined that there is no transmission. The method of claim 1, Determination of the transmission is And determining and comparing the ARQ channel identification information corresponding to the lost expected RLP frame with the subpacket sequence information of the ARQ channel and the subpacket sequence information of the current ARQ channel corresponding to the ARQ channel identification information. Packet data transmission method used. The method of claim 1, The determination result is a packet data transmission method using a radio link protocol, characterized in that further comprises identification information for the corresponding ARQ channel. Receiving a Radio Link Protocol (RLP) frame including an Automatic Repeat Request (ARQ) channel ID and an ARQ channel ID sequence number; Transmitting an ARQ channel ID and an ARQ channel ID sequence number of a lost expected RLP frame to the HARQ stage; Checking whether a current ARQ channel ID sequence number of an ARQ indicated by the received ARQ channel ID is identical to the received ARQ channel ID sequence number; If the two ARQ channel ID sequence numbers are not the same, determining that the base station has stopped transmitting an expected lossy RLP frame and receiving a determination result and corresponding ARQ channel ID; A method of transmitting packet data using a radio link protocol, comprising transmitting a NAK without waiting for a predetermined time. The method of claim 4, wherein If the two ARQ channel ID sequence numbers are the same, it is determined that a HARQ (Hybrid ARQ) process is performed for the lost expected RLP frame, and the process is repeated until the two ARQ channel ID sequence numbers are not the same. Packet data transmission method using a radio link protocol.