KR100606894B1 - Radio link protocol processing method of communication system - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for processing a radio link protocol in a communication system for transmitting a delay detection window (Delay_detection_window), which is a radio link protocol (RLP) parameter, in a mobile communication system. The present invention provides a simpler method of conveying a parameter value of a delay detection window (Delay_detection_window), which is a parameter, by using a forward radio link protocol (RLP) control frame.

Radio Link Protocol (RLP), Delay Detection Window (Delay_detection_window), Forward Radio Link Protocol (RLP) Control Frame

Description

Radio link protocol processing method of communication system

1 is a view showing the overall configuration of the 1x EV-DV system.

2 illustrates a control frame for parameter transmission in a data processing procedure according to the present invention.

The present invention relates to a communication system, and more particularly, to a method for processing a radio link protocol in a communication system for delivering a delay detection window (Delay_detection_window) which is a radio link protocol (RLP) parameter in a mobile communication system.

1x EV-DV (1x Evolution Data and Voice) system has a configuration as shown in FIG.

The delay detection window (delay_detection_window), which is a parameter of the radio link protocol (hereinafter, referred to as RLP) used in the conventional 1xEV-DV system, is changed to a value of the delay detection window (delay_detection_window) parameter. Whenever there was a need to send information on the change, a service negotiation procedure was necessary. That is, conventionally, a service negotiation procedure is used to deliver a delay_detection_window parameter to a mobile station, thereby forwarding a Forwardlink Service Connect Message and a Reverselink Service Connect Completion Message. The delay detection window (delay_detection_window) parameter must be passed to the mobile station and responded to the parameter delivery.

Service negotiation takes place between a Selection and Distribution Processor (hereinafter, referred to as SLP), which is a function processing processor and a mobile station, which is provided in the control station. .

Whenever the corresponding delay_detection_window parameter is changed, the SLP places the change value in a field for RLP_BLOB (RLP Block of Bit), which is a set of RLP information in a forwardlink service connect message. To transmit.

The mobile station then sends a Reverse Link Service Connect Completion Message to the SLP in response to the received message to inform the SLP that the value of the parameter has changed.

Accordingly, there is a problem in that a signaling message including all information required for service negotiation is unnecessarily exchanged with the mobile station in order to transmit the information according to the change of the delay detection window (delay_detection_window) parameter value to the mobile station.

In other words, in order to transmit small information such as a delay detection window (delay_detection_window), in order to transmit small information, the signaling message including all unnecessary redundant information must be exchanged between the transmitting side (control station) and the receiving side (mobile station) in that it uses radio bandwidth bandwidth. This was inefficient, and there was a problem that unnecessary processing for the duplicated information processing was further required due to the transmission of unnecessary duplicated information at the transmitting side and the receiving side.

In addition, the rapid change of the wireless environment is expected to increase the number of changes of the delay detection window (delay_detection_window) parameter in the future, so that measures are required.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for processing a radio link protocol in a communication system to more easily convey a delay detection window Delay_detection_window, which is an RLP parameter.

A feature of the radio link protocol processing method in a communication system according to the present invention for achieving the above object is that, as a change of the delay detection window (delay_detection_window) to be used for radio link protocol (RLP) processing is required, Calculating a delay detection window (delay_detection_window) parameter value to be changed by the radio link protocol (RLP) processor; and a forward radio link protocol (RLP) control frame including the calculated delay detection window (RLP) parameter value. Transmitting to a radio link protocol (RLP) processing unit of a mobile station; changing, by the radio link protocol (RLP) processing unit of the mobile station, the previous corresponding parameter value by using the delay_detection_window parameter value; The radio link protocol (RLP) processing unit of the mobile station uses the changed parameter value. W is which comprises the step of performing the radio link protocol (RLP) processing.

Other objects, features and advantages of the invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Hereinafter, a preferred embodiment of a method for processing a radio link protocol in a communication system according to the present invention will be described with reference to the accompanying drawings.

In the 1xEV-DV system shown in FIG. 1, the delay detection window delay_detection_window, which is an RLP parameter, provides RLP processing when providing a data service through a packet data channel (hereinafter, referred to as PDCH) as a forward channel. This parameter is for

The size of the delay detection window (delay_detection_window) parameter is 8 bits. The delay detection window (delay_detection_window) parameter is used to determine whether reception of a forward RLP frame on the forward PDCH is successful. The parameter represents a time from 20 ms to 5120 ms at a minimum of 20 ms.

Therefore, the RLP processing unit of the mobile station performs a time defined by the delay detection window (delay_detection_window) parameter (for any one of the time periods from 20 ms to 5120 ms = 20 ms, 40 ms, ..., 5100 ms and 5120 ms). It is determined whether the RLP frame is successfully received through the forward PDCH. Thus, a forward RLP frame which is determined to have failed in reception is regarded as a delayed frame.

When the delayed frame is generated as described above, the RLP processing unit of the mobile station suspends the retransmission request for the frame to the RLP processing unit provided in the SLP of the control station. That is, the RLP processing unit of the mobile station requests retransmission for the frame using a reverse RLP non-acknowledge (NAK) frame. When the delayed frame is generated, the RLP processing unit of the mobile station requests a frame retransmission request using the reverse RLP NAK frame. Withhold

The retransmission of the corresponding delayed frame is performed by the retransmission scheme performed by the lower layer (e.g. physical layer). The retransmission method performed by the lower layer receives the changed delay detection window (delay_detection_window) parameter value from the radio link protocol (RLP) processing unit of the mobile station and updates the parameter value with the changed delay detection window (delay_detection_window) parameter value (20 ms). To any time from 5120 ms) to a failure of receiving a Forward Radio Link Protocol (RLP) frame over the Forward Packet Data Channel (PDCH), which is considered a delayed frame. Accordingly, the radio link protocol (RLP) of the mobile station suspends a retransmission request using a reverse radio link protocol (RLP) non-acknowledge (NAK) frame transmitted to the radio link protocol of the control station. In the physical layer of the Packet Data Channel Control Function (PCCHCF), a retransmission procedure of a delay frame is independently performed. If the frame delayed by the delay detection window (delay_detection_window) parameter value is not received within a predetermined time during the retransmission by the lower layer, the RLP processing unit of the mobile station may perform reverse RLP Re-transmission of the delayed frame is requested to the radio link protocol (RLP) processing section of the control station using a NAK: Non-acknowledge (NAK) frame. In case of retransmission by lower layer, the control station on the transmitting side considers a forward radio link protocol (RLP) frame that has failed to be received through the forward packet data channel (PDCH) in the radio link protocol (RLP) processing unit of the mobile station as a delayed frame. A mobile station that transmits a forward radio link protocol (RLP) frame at the physical layer of a Data Channel Control Function and receives a delay frame becomes a receiver.

If the RLP processing unit of the mobile station fails to receive a delayed frame for a time determined by the delay detection window (delay_detection_window) parameter, the RLP processing unit of the SLP requests retransmission for the corresponding delayed frame using the reverse RLP NAK frame.

The delay detection window (delay_detection_window) parameter used above is variable according to the wireless environment.

The RLP processor performs a frame retransmission function according to the changed parameter value.

In the present invention, the service negotiation procedure is not required to deliver the delay detection window (delay_detection_window) parameter to the mobile station.

To this end, the present invention adds the control frame of FIG. 2 for delivering the delay_detection_window parameter to the RLP, so that the delay_detection_window parameter can be directly processed in the RLP layer. The control frame according to the present invention is hereinafter referred to as a forward RLP control frame.

The following describes a data processing procedure in the communication system according to the present invention.

The RLP processing unit of the SLP provided in the control station determines whether or not the value of the delay detection window (delay_detection_window) parameter is changed.

The RLP processing unit of the SLP provided in the control station generates a new control frame as a change of the value of the delay detection window (delay_detection_window) parameter is required. At this time, the RLP processing unit of the control station calculates the value inserted in the field ("DELAY_DETECTION_WINDOW" in FIG. 2) indicating the value of the delay detection window (delay_detection_window) parameter of the control frame based on the channel environment or the wireless environment.

For example, when the wireless environment is bad, the RLP processing unit of the SLP raises the parameter value inserted in the "DELAY_DETECTION_WINDOW", and lowers the parameter value when the wireless environment is good.

Increasing the value of the parameter inserted in "DELAY_DETECTION_WINDOW" here reduces the number of requests for retransmission for the delayed frame.

Whenever the value of the delay_detection_window parameter is changed, the RLP processing unit of the SLP transfers the changed value to the RLP processing unit of the mobile station in the forward RLP control frame shown in FIG. To this end, the RLP layer of the control station has the function of generating and forwarding forward RLP control frames.

The RLP processing unit of the mobile station receives the control frame generated by the RLP processing unit of the control station.

The RLP processing unit of the mobile station checks the control field ("CTL" in FIG. 2) of the received control frame to determine whether the received control frame is a frame indicating a value of a delay_detection_window parameter for RLP processing. Judge.

If the RLP processing unit of the mobile station determines that the received control frame is a forward RLP control frame including a value of the delay detection window (delay_detection_window) parameter, it uses the value of the delay detection window (delay_detection_window) parameter included in the forward RLP control frame. Update the previous parameter value. That is, the mobile station changes its previous parameter value to the parameter value included in the currently received forward RLP control frame.

The mobile station then performs RLP processing with the changed value.

The following describes an example of a procedure for performing a frame retransmission function using the changed delay detection window (delay_detection_window) parameter value in the RLP processing of the mobile station.

The RLP processing unit of the mobile station uses the value of the changed delay detection window (delay_detection_window) parameter to determine whether the received RLP frame on the forward PDCH is a delayed frame.

That is, the RLP processing unit of the mobile station is any one of 20 ms, 40 ms, ..., 5100 ms and 5120 ms for a time determined by the changed delay detection window (delay_detection_window) parameter value (20 ms to 5120 ms). Determines whether the reception of the RLP frame on the forward PDCH is successful. Thus, the forward RLP frame that is determined to have failed reception is a delayed frame.

When the delayed frame is generated as described above, the RLP processing unit of the mobile station suspends the retransmission request for the frame to the RLP processing unit provided in the SLP of the control station. That is, the RLP processing unit of the mobile station suspends the frame retransmission request using the reverse RLP NAK frame when a delayed frame is generated.

The retransmission of the corresponding delayed frame is performed by the retransmission scheme performed by the lower layer (e.g. physical layer). The retransmission process in the state of failed reception includes an 8-bit sequence included in the header of each transmitted frame of a forward radio link protocol (RLP) frame that has failed to be received through the forward packet data channel (PDCH) at the mobile station. If a frame with a larger sequence number is received from the number, it is detected as a frame that was not successfully received. The control station retransmits the delayed frame including the sequence originally transmitted through the lower layer Packet Data Channel Control Function (PCCHCF). If the retransmission frame is not successfully received at the physical layer, the mobile station transmits retransmission of a delayed frame using a reverse radio link protocol (RLP) non-acknowledge (NAK) frame to the radio link protocol (RLP) processing unit of the control station. Require.

However, if the delayed frame is not received during the time determined by the value of the delay_detection_window parameter changed through the retransmission scheme performed by the lower layer, the RLP processing unit of the mobile station controls the reverse RLP NAK frame. The RLP processing unit of the station SLP requests retransmission for the delayed frame.

Accordingly, the RLP processing unit of the control station SLP performs a retransmission function for the delay frame.

The retransmission function of the lower layer mentioned above is performed independently, and does not work with the retransmission function of the control station RLP layer.

FIG. 2 illustrates a control frame for parameter delivery in a data processing procedure according to the present invention, and illustrates a forward RLP control frame used for delivery of a delay detection window (delay_detection_window) parameter for RLP processing.

In FIG. 2, "SEQ" is a field indicating a sequence number of a forward RLP frame on a forward PDCH and has a length of 8 bits.

The receiving side (mobile station) determines whether the forward RLP frame is lost through the forward PDCH using the "SEQ". This "SEQ" field value is incremented by a constant value each time a forward RLP frame is transmitted on the forward PDCH. However, it does not increase when the control frame of the present invention is transmitted.

The receiving side (mobile station) can check whether the sequence number of the received forward RLP frames has continuity to know the missing RLP frame.

"CTL" is a control field indicating that the frame is a control frame including the value of the delay_detection_window parameter. For example, the "CTL" field is 4 bits long and is set to the value "1011". Accordingly, the mobile station checks the "CTL" field, and if the value of the field is "1011", the currently received frame is recognized as a control frame, and the next field value is the value of the delay_detection_window parameter for RLP processing. Able to know.

"DELAY_DETECTION_WINDOW" is a field indicating the value of the delay_detection_window parameter and has a length of 8 bits.

The next "padding" is where the meaningless values are inserted to fill the length of the control frame. That is, they are all filled with values of "0".

The forward RLP control frame is transmitted through a specific forward channel. If the forward channel is not allocated, the forward RLP control frame is transmitted through a forward PDCH.

In the present invention described above, the RLP processing procedure is simplified because the forward RLP control frame is directly exchanged between the RLP layer of the control station and the RLP layer of the mobile station without passing through the service negotiation procedure whenever the delay detection window (delay_detection_window) parameter is passed. Become. In addition, there is no redundant information transfer that is not generated by using a forwardlink service connect message and a reverselink service connect completion message. Accordingly, the load of unnecessary processing for processing duplicate information can be reduced.

In addition, in the present invention, since a signaling message including unnecessary duplication information is not exchanged between the transmitting side (control station) and the receiving side (mobile station) whenever the delay detection window (delay_detection_window) parameter is changed, the wireless section bandwidth is not used unnecessarily and efficiently. to be.

Claims (4)

Calculating a delay detection window (delay_detection_window) parameter value to be changed by the radio link protocol (RLP) processing unit of the control station as a change of the delay detection window (delay_detection_window) to be used for the radio link protocol (RLP) processing is required; Transmitting a forward radio link protocol (RLP) control frame including the calculated delay_detection_window parameter value to a radio link protocol (RLP) processing unit of a corresponding mobile station; Changing, by the RLP processing unit of the mobile station, a previously corresponding parameter value by using the delay_detection_window parameter value; And performing a radio link protocol (RLP) processing by the radio link protocol (RLP) processing unit of the mobile station using the changed parameter value. The method of claim 1, wherein the delay detection window (delay_detection_window) parameter value is The radio link protocol (RLP) processing unit of the mobile station is used to determine whether the reception of the forward radio link protocol (RLP) frame over the forward packet data channel (Packet Data Channel), the radio link protocol in a communication system Treatment method. The method of claim 2, wherein the forward radio link protocol (RLP) control frame, A sequence field (SEQ) indicating a sequence number of the forward radio link protocol (RLP) frame and a control field indicating that the forward radio link protocol (RLP) control frame is a frame for transmitting the delay_detection_window parameter value (CTL) and a delay detection window (delay_detection_window) field including the delay detection window (delay_detection_window) parameter value. 2. The method of claim 1, wherein the forward radio link protocol (RLP) control frame is transmitted through a forward channel (FCH) allocated between a radio link protocol (RLP) processor of the control station and a radio link protocol (RLP) processor of the mobile station. Method for processing radio link protocol in a communication system, characterized in that the.

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