KR20050034477A - Variable protocol data unit architecture apparatus and method thereof same of a mobile communication system - Google Patents

Abstract

The present invention relates to an apparatus and method for constructing a variable length frame in a mobile communication system.

The present invention includes a transmitting unit, and after sequentially transmitting at least one or more data frames to the receiving unit, and when a retransmission request for each untransmitted data frame is received from the receiving unit, the present invention has the same sequence number as the received data frame. Reconstruct the data frame. In this case, the number of data frames to be reconstructed is the same or at least two or more than the first data frame transmitted, the overall size of each frame equals the size of the untransmitted data. In addition, the present invention provides a primary transmission / retransmission (P / R), a start point (SP) and a start point (EP) as an end point in a header for each data frame to be reconfigured. ). This is to recover the original correct data frame upon frame restoration at the receiver.

Through this, it is possible to provide effective automatic retransmission request (ARQ) support and thus high data transmission quality.

Description

 Variable length frame construction apparatus and method thereof in mobile communication system {VARIABLE PROTOCOL DATA UNIT ARCHITECTURE APPARATUS AND METHOD THEREOF SAME OF A MOBILE COMMUNICATION SYSTEM}

The present invention relates to an apparatus and method for constructing a variable length frame in a mobile communication system, and more particularly, to an apparatus and method for constructing and transmitting a frame having a variable length to a counterpart.

In general, the purpose of retransmitting a frame is to improve the data transmission quality of the system, and such a frame retransmission method includes a stop and wait Automatic Repeat Request (ARQ) and a Selective Repeat Automatic Repeat Request (ARQ).

In detail, the Stop Waiting ARQ is the simplest form of ARQ (Automatic Retransmission Request). When a sender transmits one block, the receiver checks for an error and generates an acknowledgment (ACK) or a negative response (NAK). It waits until it is sent. The selective retransmission ARQ transmits only the error data indicated by the retransmission request signal.

The ARQ technology divides an SDU (Service Data Unit, hereinafter referred to as 'SDU') received from a higher layer into a fixed length PDU (Packet Data Unit, hereinafter referred to as 'PDU'), and then assigns a sequence number to each PDU. send or retransmit with number). At this time, the size of the PDU depends on the transmission rate of the lower layer.

In addition, the ARQ technique deals with a technique of how to efficiently retransmit the already transmitted frame, and the retransmitted frame uses the same form as the already transmitted frame.

1 is a view for sequentially explaining a fixed length frame retransmission method according to the prior art.

In general, a frame is composed of a header and a payload. A frame sequence number (FSN) is inserted in the header. Allows for ordering and retransmission requests.

In detail, as shown in FIG. 1, the receiver 20 checks that the frame 11 having FSN = 2 is not received after the test received from the transmitter 10. Accordingly, the reception unit 20 requests retransmission of the NACK frame 21 to the transmission unit 10.

Then, the transmitter 10 retransmits the frame 12 having FSN = 2 so that all the frames are transmitted to the receiver 20.

However, the frame transmission apparatus in the transmitter 10 according to the prior art transmits a frame having the same size as the frame 11 that is not initially transmitted, that is, FSN = 2, to the retransmission frame 12. That is, there is no change in the length information inserted into the header of the frame.

As such, reuse of frames that are not normally transmitted is based on a unilateral assumption that the environment of the radio link will not change during the frame creation and transmission phase.

However, since the environment of the radio link always changes, the environment at the time of initial transmission and the environment at the time of retransmission cannot be the same. Therefore, a frame in which the radio link environment is not considered has a low efficiency of transmitting a small amount when the environment is good, or a disadvantage of deterioration of sending a larger amount than the appropriate amount when the environment is bad.

Therefore, there is an urgent need for an apparatus and a method capable of efficiently transmitting a variable length frame in consideration of the environment of a radio link.

The technical problem to be solved by the present invention is to solve this problem, and by applying the optimal AMC option that can be transmitted to reconstruct the data frame and then retransmitted, effective automatic retransmission request (ARQ) support and high data transmission quality accordingly An apparatus and method for constructing a variable length frame in a mobile communication system capable of providing the same are provided.

According to an aspect of the present invention, there is provided a variable length frame configuration apparatus in a variable length frame configuration apparatus that transmits at least one or more data frames to a receiver. A frame configuration / transmitter configured to sequentially transmit the configured data frames to the receiver after configuring at least one data frame; An ARQ receiving unit which receives a retransmission request for at least one or more untransmitted data frames of the transmitted data frames from the receiving unit; A frame reconstruction unit having a same sequence number as that of the untransmitted data frame and reconstructing at least two or more data frames each having a variable size; And a frame retransmitter retransmitting the reconstructed at least two data frames to the receiver.

The frame reconstruction unit includes a primary transmission / retransmission (P / R) indicating whether the retransmitted data frame is initial transmission or retransmission, a start point (SP) as a start point, and an end point (EP) as an end point. It characterized in that to reconstruct each.

In addition, the variable length frame configuration method in a mobile communication system according to an aspect of the present invention, in the variable length frame configuration method for transmitting at least one or more data frames (Data frame) to the receiver, a) the at least one After constructing a data frame, sequentially transmitting the configured data frame to the receiver; b) receiving, from the receiver, a retransmission request for at least one or more untransmitted data frames among the transmitted data frames; c) reconstructing at least two data frames having the same sequence number as the received data frame and each having a variable size; And d) retransmitting the reconstructed at least two data frames to the receiver.

In addition, a recording medium storing a program according to an aspect of the present invention, the recording medium comprising a variable length frame configuration method for transmitting at least one or more data frames to the receiving unit, a) at least one A function of sequentially transmitting the configured data frame to the receiver after configuring the above data frame; b) receiving, from the receiving unit, a retransmission request for at least one or more untransmitted data frames among the transmitted data frames; c) a function of reconstructing at least two data frames each having a same sequence number as the received data frame and having a variable size; And d) retransmitting the reconstructed at least two data frames to the receiver.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention. Like parts are designated by like reference numerals throughout the specification.

2 is a diagram illustrating a schematic configuration of an apparatus for constructing a variable length frame according to an embodiment of the present invention.

As shown in FIG. 2, the mobile communication system includes at least one mobile station (mobile terminal) 200 and a base station 300, and data frame transmission and reception in such a configuration is performed from the mobile station 200 to the base station 300. Or independently from the base station 300 to the mobile station 200. At this time, the mobile station 200 and the base station 300 serve as a transmitter and a receiver.

That is, the mobile station 200 may serve as a frame transmitter, and in some cases, the base station 300 may serve as a data frame transmitter.

In the following embodiment of the present invention, for convenience of description, the variable length frame configuration apparatus included in the mobile station 200 will be described while designating the mobile station 200 as a frame transmitter. However, this is not limited to the present invention, and in some cases, the variable length frame configuring apparatus may be included in the base station 300 and other components.

3 is a diagram illustrating a detailed configuration of an apparatus for constructing a variable length frame according to an embodiment of the present invention.

As shown in FIG. 3, the apparatus 100 for variable length frame configuration according to an embodiment of the present invention includes a frame configuration / transmitter 110, an automatic repeat request (ARQ) receiver 120, a frame reconstruction unit 130, and the like. The frame retransmitter 140 is included.

In detail, first, the frame configuration / transmitter 110 configures at least one data frame, and then sequentially transmits the data to the base station 300, that is, the receiver.

The ARQ receiving unit 120 receives an automatic repeat request according to the confirmation fact from the receiving unit when the receiving unit confirms untransmitted of at least one or more data frames among the data frames transmitted to the receiving unit.

The frame reconstruction unit 130 reconstructs an untransmitted data frame, wherein the frame reconstruction unit 130 sets a header of the data frame in addition to the frame sequence number (FSN) to a primary transmission or retransmission indicator (P / R). , Hereinafter referred to as 'P / R'), SP (Start Pointer: Start Point, hereinafter 'SP') and EP (End Pointer: End Point, hereinafter referred to as 'EP').

In this case, P / R indicates whether the data frame to be transmitted is the first data frame to be transmitted or a data frame to be retransmitted upon receipt of an automatic retransmission request, and SP is the first octet of the payload in the data frame. Indicates the sequence number. EP indicates the order of the last octet of the payload in the data frame.

4 is a diagram illustrating in detail the configuration of a variable length data frame according to an embodiment of the present invention.

As shown in FIG. 4, when the size of the payload in the data frame is M octets and initial transmission (P / R = P), the frame configuration / transmitter 110 sets SP = 0 indicating the first octet. EP, which indicates the last octet, constitutes one data frame 41 with EP = M-1.

Then, the frame reconstruction unit 130 applies this initial transmission data frame 41 to two data by applying AMC (Adaptive Modulation & Coding) according to the change of the radio link. It is divided into frames.

That is, the frame reconstruction unit 130 is a retransmission (P / R = R) and the first data frame 42, SP = 0, EP = N-1, and also retransmission (P / R = R), SP = N , Constitutes a second data frame 43 with EP = M-1. In this case, the frame reconstruction unit 130 sets the sequence number (FSN = 2) of the first and second data frames 42 and 43 to be equal to the sequence number (FSN = 2) of the untransmitted data frame. This allows precise combination of the first and second data frames 42 and 43 to restore the original data frame 41.

As a result, the present invention can efficiently configure and transmit a variable length data frame that can be adapted to a radio link environment that is frequently converted when receiving an ARQ from a receiver due to data transmission / reception failure in a mobile communication system. .

The frame retransmitter 140 retransmits the reconstructed first and second data frames 42 and 43 to the receiver.

Then, the operation process of the variable length frame configuration apparatus 100 constituting such a configuration will be described with reference to the accompanying drawings.

5 is a diagram for describing an operation concept of a variable length frame configuring apparatus according to an exemplary embodiment of the present invention.

As shown in FIG. 5, first, the frame configuration / transmitter 110 indicates that the SP indicating the first octet is 0, and the EP indicating the last octet is the data size (for example, M) -1 and the initial transmission ( At least one data frame consisting of P / R = P) is configured, and then sequentially transmitted.

Subsequently, when a specific data frame having a frame sequence number of 2 is not normally received from the receiving unit which sequentially receives such data frames, and an automatic retransmission request requesting it is requested, the ARQ receiving unit 120 receives the request.

The frame reconstruction unit 130 reconstructs the untransmitted data frame. In this case, the frame reconstruction unit 130 further includes a P / R, an SP, and an EP in addition to the frame sequence number (FSN).

That is, the frame reconstruction unit 130 applies the initial transmission data frame 41 to two data frames by applying Adaptive Modulation & Coding (AMC) according to the change of the radio link. Consists of.

That is, the frame reconstruction unit 130 is a retransmission (P / R = R) and the first data frame 42, SP = 0, EP = N-1, and also retransmission (P / R = R), SP = N , Constitutes a second data frame 43 with EP = M-1.

In this case, the frame reconstruction unit 130 configures the sequence numbers (FSN = 2) of the first and second data frames 42 and 43 to be the same as the sequence numbers (FSN = 2) of the untransmitted data frames. Allow the correct combination of the first and second data frames 42 and 43 to restore the original data frame 41.

As described above, the apparatus and method for constructing a variable length frame in a mobile communication system according to an embodiment of the present invention reconstructs and transmits a data frame by applying an optimal AMC option that can be transmitted according to a wireless environment for converting in time. Effective automatic retransmission request (ARQ) support and thus high data transmission quality can be provided.

The drawings and detailed description of the invention are exemplary only, and are used for the purpose of illustrating the invention only, and are not intended to be limiting or to limit the scope of the invention described in the claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

An apparatus and method for constructing a variable length frame in a mobile communication system according to the present invention support effective automatic retransmission request (ARQ) and thereby high data by reconstructing and retransmitting a data frame by applying an optimal transmittable AMC option. There is an effect that can provide the transmission quality.

1 is a view for sequentially explaining a fixed length frame retransmission method according to the prior art.

2 is a diagram illustrating a schematic configuration of an apparatus for constructing a variable length frame according to an embodiment of the present invention.

3 is a diagram illustrating a detailed configuration of an apparatus for constructing a variable length frame according to an embodiment of the present invention.

4 is a view showing in detail the configuration of a variable length frame according to an embodiment of the present invention.

5 is a diagram for describing an operation concept of a variable length frame configuring apparatus according to an exemplary embodiment of the present invention.

Claims (7)

In the variable length frame configuration apparatus for transmitting at least one data frame (Data frame) to the receiver, A frame configuration / transmitter configured to sequentially configure the at least one data frame and then sequentially transmit the configured data frame to the receiver; An ARQ receiving unit which receives a retransmission request for at least one or more untransmitted data frames of the transmitted data frames from the receiving unit; A frame reconstruction unit having a same sequence number as that of the untransmitted data frame and reconstructing at least two or more data frames each having a variable size; And A frame retransmission unit retransmitting the reconstructed at least two data frames to the receiving unit Variable length frame configuration apparatus in a mobile communication system comprising a. According to claim 1, The frame reconstruction unit, Reconstructing the data frame includes a primary transmission / retransmission (P / R) indicating whether the retransmitted data frame is initial transmission or retransmission, a start point (SP) and an end point (EP) as an end point. An apparatus for constructing a variable length frame in a mobile communication system, characterized by the above-mentioned. The method of claim 2, The frame reconstruction unit, And reconstructing the total sum of the sizes of the reconstructed data frames to be equal to the size of the untransmitted data. In the variable length frame configuration method for transmitting at least one data frame (Data frame) to the receiver, a) after configuring the at least one data frame, sequentially transmitting the configured data frame to the receiver; b) receiving, from the receiver, a retransmission request for at least one or more untransmitted data frames among the transmitted data frames; c) reconstructing at least two data frames having the same sequence number as the received data frame and each having a variable size; And d) retransmitting the reconstructed at least two data frames to the receiver; Variable length frame configuration method in a mobile communication system comprising a. The method of claim 4, wherein Step c) is Reconstructing the data frame including a primary transmission / retransmission (P / R) indicating whether the retransmitted data frame is initial transmission or retransmission; And Reconstructing the data frame including a start point (SP) which is a start point for knowing the size of the data frame to be retransmitted and an end pointer (EP) which is an end point Variable length frame configuration method in a mobile communication system comprising a. The method of claim 5, Step c) is Reconstructing the total sum of the sizes of the reconstructed data frames to be equal to the size of the untransmitted data. Variable length frame configuration method in a mobile communication system comprising a. In the recording medium comprising a variable length frame configuration method for transmitting at least one data frame to the receiving unit, a) a function of sequentially configuring the at least one data frame and then sequentially transmitting the configured data frame to the receiver; b) receiving, from the receiving unit, a retransmission request for at least one or more untransmitted data frames among the transmitted data frames; c) a function of reconstructing at least two data frames each having a same sequence number as the received data frame and having a variable size; And d) retransmitting the reconstructed at least two data frames to the receiver; A computer-readable recording medium having a program recorded thereon.