KR20020000650A - Method for transmitting/receiving controll information in parallel with data using control PDU Format - Google Patents

Abstract

PURPOSE: A method for transmitting and receiving data and control information in parallel using a control PDU(Payload Data Unit) is provided to transmit and/or receive data and associated control information in parallel using a control PDU. CONSTITUTION: A transmitting side RLC(Radio Link Control) protocol entity receives a message(401) and confirms what this message is (402). If the message is a data message transferred from an upper layer, the RLC protocol entity transforms the received data message in the form of an RLC data PDU through RLC protocol processing(403). Then the RLC protocol entity extracts a sequence number from the RLC data PDU(404) and creates a hybrid ARQ(Automatic Repeat ReQuest) control information control PDU on the basis of the extracted information(405). The RLC protocol entity stores the created RLC data PDU in a re-transmission buffer before transmitting it to a receiving side(406). The RLC protocol entity transmits the RLC data PDU and the hybrid ARQ control information control PDU to a transmitting side MAC protocol entity in order to transmit them to the receiving side(407). The MAC protocol entity, receiving the PDUs, executes MAC protocol processing(408). Then the MAC protocol entity transmits the RLC data PDU and the hybrid ARQ control information control PDU to a physical layer using a DSCH(Downlink Shared CHannel) and a DCH(Dedicated CHannel) respectively(409). The physical layer executes physical layer processing(410) and transmits the RLC data PDU and the hybrid ARQ control information control PDU to the receiving side through a PDSCH(Physical DSCH) and a DPCH(Dedicated Physical CHannel) respectively in parallel(411).

Description

Method for transmitting / receiving controll information in parallel with data using control PDU Format}

The present invention relates to a method for parallel transmission and reception of data and control information in a communication system, and more particularly, to a method and a method for transmitting and receiving data and control information in parallel using a newly developed control payload data unit. A computer readable recording medium having recorded thereon a program for realization.

In general, the asynchronous mobile communication system (UTRAN: UMTS Terrestrial Radio Access Network) checks the data transmitted from the sender to the receiver and requests retransmission from the sender if there is an error in the received data. There is an automatic retransmission request (ARQ: Automatic Repeat reQuest (ARQ)) scheme, which is divided into three types, ARQ type I, II and III. The technical characteristics of each method are as follows.

First, when the received data has an error, the ARQ Type I method requests a retransmission to the sender without storing the error in the receiver, and the sender transmits the requested part from the receiver in a previously transmitted manner. Retransmission method.

And, if there is an error in the received data, the ARQ type II method stores the error part on the receiving side and requests retransmission to the transmitting side, and the transmitting side transmits the data requested from the receiving side in the previously transmitted method. A method of transmitting data generated by changing a data coding rate. Here, if the coding rate of the initially transmitted data is "1/2", the data is encoded and sent at a low coding rate such as "1/3" or "1/4" when retransmitted. Here, the data to be retransmitted cannot be restored by itself, but can be used in combination with previously received data.

The ARQ Type III scheme is similar to the ARQ II scheme, and the difference between the two schemes is that the retransmission data sent by the transmitter can be recovered by itself, and also can be encoded by combining with the previously sent data. Is to use.

Here, a technique for applying an ARQ type II / III scheme to an asynchronous wireless communication system, which has a larger amount of signals but has better throughput than ARQ type I, has been proposed by Seimens (3GPP WG1). 12th Conference, Technical document no .: R1-00-0514).

The technology proposed by Siemens for applying the Hybrid ARQ Type II / III method to the asynchronous wireless communication system is the data portion to be transmitted and the information (data sequence number and data version) of the data. (data version), etc.), through downlink shared channel (DSCH) downlink and uplink shared channel USCH (uplink) in time division duplex (TDD) This is a method of serial transmission.

The following problems occur when the hybrid automatic retransmission request type II / III method is processed by the Siemens method.

First, the complexity of hardware increases.

In the hybrid ARQ type II / III scheme, the data coding rate of the transmission data portion and the information portion of the transmission data is different from each other. That is, the information portion of the data is processed and stored at a coding rate of A, and the data portion is processed and stored at a coding rate of B, and stored at the time when each portion should be transmitted. It is necessary to take data and carry it on a downlink shared channel (DSCH) for downlink and uplink shared channel (USCH) for uplink of time division duplex (TDD). Therefore, the complexity is increased because hardware must be configured to store encoded data and to load data for use at a necessary time.

Second, since information of the data to be transmitted and additional data is transmitted in serial, a technique of compressing data to be transmitted at a given time must be added.

The information part of the transmission data is additional information (such as data sequence number and data version number) used in the hybrid ARQ type II / III scheme for transmitting data. This additional information and the portion of the transmitted data must be sent serially rather than simultaneously, reducing the time allotted for transmitting data. Therefore, when transmitting data, an algorithm or the like that can reduce the amount of transmitted data must be additionally used to satisfy the reduced allocation time.

In order to solve the above problems, there is a demand for a hybrid ARQ type II / III scheme of a new signaling method. Here, the signaling method means that the data portion and the hybrid ARQ control information portion of the data are transmitted in parallel through different transport channels and physical channels. Say the way.

That is, the payload data unit (hereinafter referred to as "PDU") corresponding to the data portion and the PDU corresponding to the hybrid ARQ control information portion are referred to as Radio Link Control (RLC) protocol entities. The PDU corresponding to the data portion generated by the RLC Protocol Entity is transmitted using the DSCH transport channel and the physical DSCH (PDSCH) physical channel, and the PDU corresponding to the hybrid ARQ control information part is transmitted to the dedicated channel (DCH) transport channel. Dedicated Physical Channel (DPCH) A method of transmitting through a physical channel. Here, the hybrid ARQ control information part includes a sequence number and a version number.

The operation of the transmitter using the hybrid ARQ type II / III scheme of the signaling scheme as described above will be briefly described with reference to FIGS. 2A and 2B.

First, the RLC protocol entity creates an RLC data PDU from data received from a higher layer of a user plane, generates a hybrid ARQ control information control PDU based on the RLC data PDU, and generates a MAC protocol entity. ) And copy the transmitted RLC data PDUs to the re-transmission buffer. This is for retransmitting a corresponding RLC data PDU upon request for retransmission, and the PDU stored in the buffer is cleared when an acknowledgment (ACK) signal arrives from the receiver.

Thereafter, the MAC protocol entity receiving the RLC data PDU and the hybrid ARQ control information control PDU from the RLC protocol entity performs MAC protocol processing for each PDU, and then the RLC data PDU is physically transmitted through the DCH transport channel. A physical layer is transmitted, and the hybrid ARQ control information control PDU is transmitted using a DSCH transport channel.

Subsequently, the physical layer receiving the RLC data PDU and the hybrid ARQ control information control PDU from which the MAC protocol processing is performed from the MAC protocol entity performs physical layer processing on each PDU. The RLC data PDU is transmitted to the receiver through the DPCH physical layer, and the hybrid ARQ control information control PDU is transmitted to the receiver through the PDSCH physical channel.

Next, the operation of the receiver using the hybrid ARQ type II / III scheme of the signaling scheme as described above will be briefly described with reference to FIGS. 2A and 2B.

First, in the physical layer that receives the RLC data PDU and the hybrid ARC control information PDU from the transmitter through the PDSCH physical channel and the DPCH physical channel, the RLC data PDU received through the PDSCH physical layer is stored in a physical layer buffer (Physical Layer). Buffer), and the hybrid ARQ control information control PDU received through the DPCH physical layer is first subjected to physical layer processing, and then transmitted to the MAC protocol entity through the DCH transport channel.

Thereafter, the MAC protocol entity that receives the hybrid ARQ control information control PDU from the physical layer through the DCH transport channel performs MAC protocol processing and then transmits it to the RLC protocol entity.

Subsequently, the RLC protocol entity receiving the hybrid ARQ control information control PDU from the MAC protocol entity receives information (coding rate, etc.) necessary for performing physical layer processing on the RLC data PDU received from the physical layer through the PDSCH physical layer. The hybrid ARQ control information is extracted from the control PDU and transmitted to a radio resource control (RRC) protocol entity, which is an upper layer of a control plane.

Subsequently, the RRC protocol entity, which has obtained information necessary for performing physical layer processing at the physical layer from the RLC protocol entity, transmits this information to the physical layer using a control primitive.

Subsequently, the physical layer that receives the information necessary to perform physical layer processing on the RLC data PDU received through the PDSCH physical layer through the control primitive from the RRC protocol entity is received through the PDSH physical layer based on this information. Physical layer processing is performed on the RLC data PDU and then transmitted to the MAC protocol entity using this DSCH transport channel.

Thereafter, MAC protocol processing is performed on the RLC data PDU received from the physical layer through the DSCH transport channel and then transmitted to the RLC protocol entity.

Thereafter, the RLC protocol entity receiving the RLC data PDU from the MAC protocol entity performs RLC protocol processing and then transmits the RLC data PDU to the upper layer of the user plane.

In the case of using the hybrid ARQ type II / III scheme of the signaling scheme as described above, as shown in the operation flow, the RLC protocol entity of the transmitter generates an hybrid ARQ control information control PDU in consideration of retransmission of the RLC data PDU. The RLC protocol entity on the receiving side should receive the hybrid ARQ control information control PDU, interpret it, and transmit the information to the RRC protocol entity so that this information can go from the RRC protocol entity to the physical layer. .

Meanwhile, according to the current RLC protocol standard (3GPP TSG-RAN WG2 TS25.322), the RLC protocol has two types of PDU formats. One is the data PDU format and the other is the control PDU format.

A data PDU is a PDU that cannot be interpreted by an RLC protocol entity. The RLC protocol entity generates data received from an RRC protocol entity in the form of an RLC data PDU in the case of a control plane and transmits the data to a Mac protocol entity. In case of user plane, actual voice or packet data received from upper layer is generated in RLC data PDU format and transmitted to MAC protocol entity. At this time, the data received from the upper layer by the RLC protocol entity is called an RLC PDU. The data PDU checks only the information on the header of the data PDU in the RLC protocol entity, and does not perform any operation on the payload part, and transmits the data PDU to the upper layer as it is.

The control PDU is a PDU having information to be transmitted between RLC protocol entities by communication between the RLC protocol entities of the transmitting side and the receiving side, and the PDU can be interpreted by the RLC protocol entity. Currently, only three types of control PDUs are defined: a Status Control PDU, a Reset Control PDU, and a Reset Ack Control PDU.

However, in the hybrid ARQ control information control PDU used in the hybrid ARQ type II / III scheme of the signaling scheme, both the header and the payload are generated in the transmitting RLC protocol entity, and the receiver RLC protocol entity is generated. Both headers and payloads must be interpretable.

However, the current standard does not define a PDU type that can use such a hybrid ARQ control information control PDU.

If the hybrid ARQ control information control PDU is defined in the currently defined data PDU format, the PDU can interpret only the header of the PDU in the receiving RLC protocol entity, and the data on the payload cannot be interpreted. There is a problem that the PDU format cannot be used. Also, even if this information rises to a higher level, the higher level cannot interpret this information. This is because the data is generated by different protocol entities.

If the hybrid ARQ control information control PDU is defined in the currently defined control PDU format, the PDU can interpret both the header and the payload of the PDU in the receiving RLC protocol entity. However, there is a problem that the current standard does not define a control PDU format for hybrid ARQ.

Due to the above two problems, it is impossible to generate a hybrid ARQ control information control PDU with the data PDU and control PDU format defined in the current RLC protocol standard. In this case, the hybrid ARQ type II / III method of signaling method Cannot be used.

The present invention has been made to solve the above problems, using a newly developed control payload data unit (PDU) to record a method for transmitting and receiving data and control information in parallel and a program for realizing the method Its purpose is to provide a computer readable recording medium.

1 is an exemplary configuration diagram of a wireless communication network to which the present invention is applied.

Figure 2a is an example of the interworking structure of a wireless communication network to which the present invention is applied.

2b is another exemplary diagram of an interworking structure of a wireless communication network to which the present invention is applied;

3 is a structural diagram of an embodiment of a control payload data unit according to the present invention;

4 is a flowchart illustrating a method for parallel transmission of data and control information using a control payload data unit according to the present invention.

5A and 5B are flowcharts illustrating an embodiment of a method for parallel reception of data and control information using a control payload data unit according to the present invention;

* Explanation of symbols for the main parts of the drawings

10: asynchronous mobile station 20: asynchronous wireless network

30: wireless communication core network

A method of the present invention for achieving the above object is a parallel transmission method of data and control information using a control payload data unit applied to a parallel transmission device of data and control information, the RLC protocol entity received from a higher layer. Transforming the data into an RLC data PDU to extract information to generate a hybrid ARQ control information control PDU, and then storing the RLC data PDU in a re-transmission buffer; A second step of the RLC protocol entity receiving a re-transmission request message from a receiver, reading the corresponding RLC data PDU from the retransmission buffer, changing control information, and storing it in the retransmission buffer; A third step of performing MAC protocol processing and physical layer processing on the RLC data PDU and the hybrid ARQ control information control PDU, and then transmitting them to the receiving side in parallel; And a fourth step of the RLC protocol entity receiving an ACK message from the receiving side clearing the corresponding RLC data PDU in the retransmission butter.

Another method of the present invention is a parallel reception method of data and control information using a control payload data unit applied to a parallel reception device of data and control information, wherein the data received from the transmitting side is stored in a buffer and physically A first step of performing layer processing; Performing a MAC protocol processing to extract a hybrid ARQ control information control PDU, and performing RLC protocol processing to extract control information for processing data stored in the buffer from the hybrid ARQ control information control PDU; A third step of analyzing the extracted control information to determine whether the data stored in the buffer is the first received data; As a result of the checking of the third step, if it is the first data, the RLC data PDU is extracted by performing physical layer processing and MAC protocol processing, and transmitted to the upper layer by performing RLC protocol entity processing, and then sending an acknowledgment message to the sender. A fourth step of doing; And as a result of the checking of the third step, if it is not the first data, performs RAR protocol data processing by extracting RLC data PDU by performing hybrid ARQ type II / III signaling, physical layer processing, MAC protocol processing of signaling method, and performing RLC protocol entity processing. And a fifth step of transmitting an acknowledgment message to the sender after transmitting to the upper layer.

Further, another method of the present invention is a parallel transmission / reception method of data and control information using a control payload data unit applied to a parallel transmission / reception apparatus of data and control information, wherein the RLC protocol entity receives data received from an upper layer. Transforming the RLC data PDU into a RLC data PDU to generate information and generating a hybrid ARQ control information control PDU, and then storing the RLC data PDU in a re-transmission buffer; A second step of the RLC protocol entity receiving a re-transmission request message from a receiver, reading the corresponding RLC data PDU from the retransmission buffer, changing control information, and storing it in the retransmission buffer; A third step of performing MAC protocol processing and physical layer processing on the RLC data PDU and the hybrid ARQ control information control PDU, and then transmitting them to the receiving side in parallel; A fourth step of the RLC protocol entity receiving an ACK message from the receiver clearing the corresponding RLC data PDU in the retransmission butter; A fifth step of storing data received from a transmitting side in a buffer and performing physical layer processing; Performing a MAC protocol processing to extract a hybrid ARQ control information control PDU, and performing RLC protocol processing to extract control information for processing data stored in the buffer from the hybrid ARQ control information control PDU; Analyzing the extracted control information to determine whether the data stored in the buffer is the first received data; As a result of the checking of the seventh step, if the first data, the RLC data PDU is extracted by performing physical layer processing and MAC protocol processing, and transmitted to the upper layer by performing RLC protocol entity processing, and then transmits an acknowledgment message to the sender. An eighth step; And as a result of the checking of the seventh step, if it is not the first data, performs RLC protocol entity processing by extracting RLC data PDU by performing hybrid ARQ type II / III signaling, physical layer processing, and MAC protocol processing of a signaling method. And a ninth step of transmitting an acknowledgment message to the sender after transmitting to the upper layer.

In addition, another method of the present invention is a hybrid ARQ type of a signaling method in a next-generation mobile communication system of the asynchronous method in a parallel transmission and reception method of data and control information applied to a parallel transmission and reception apparatus of data and control information. In order to use the II / III method, the hybrid ARQ control information control PDU for transmitting the hybrid ARQ control information is set in the RLC protocol entity, and then the data and the control information for the corresponding data are paralleled using the hybrid ARQ control information control PDU. The hybrid ARQ control information control PDU may include: a D / C field for indicating whether the PDU type is a data PDU or a control PDU; A PDU type field for indicating a control PDU type; A Sequence Number field for indicating a Sequence Number of the data PDU; And a Version Number field for indicating the number of times of retransmission of the data PDU.

On the other hand, in the present invention, in order to transmit data and control information in parallel using a control payload data unit, the data received from an upper layer by an RLC protocol entity to a parallel transmission device having data and control information is provided. A first function of transforming the RLC data PDU into a re-transmission buffer after extracting information to generate a hybrid ARQ control information control PDU; A second function of the RLC protocol entity receiving a re-transmission request message from a receiving side reading the corresponding RLC data PDU from the retransmission buffer, changing control information, and storing it in the retransmission buffer; A third function of performing MAC protocol processing and physical layer processing on the RLC data PDU and the hybrid ARQ control information control PDU and then transmitting the parallel data to the receiving side in parallel; And a program for recording a program for realizing a fourth function for the RLC protocol entity receiving an ACK message from the receiving side to clear the RLC data PDU in the retransmission butter. Provide the medium.

In addition, the present invention, in order to receive data and control information in parallel using a control payload data unit, the data received from the transmitting side is stored in a buffer in a parallel reception device of data and control information having a processor and A first function of performing physical layer processing; Performing a MAC protocol processing to extract a hybrid ARQ control information control PDU, and performing RLC protocol processing to extract control information for processing data stored in the buffer from the hybrid ARQ control information control PDU; A third function of analyzing the extracted control information to determine whether the data stored in the buffer is the first received data; As a result of the confirmation in the third function, if the first data is obtained, the RLC data PDU is extracted by performing physical layer processing and MAC protocol processing, and transmitted to a higher layer by performing RLC protocol entity processing, and then an acknowledgment message is sent to the sender. A fourth function of transmitting; And as a result of the confirmation in the third function, if it is not the first data, perform RAR protocol data processing by extracting RLC data entity by performing hybrid ARQ type II / III signaling, physical layer processing, and MAC protocol processing. The present invention provides a computer-readable recording medium having recorded thereon a program for realizing a fifth function of transmitting an acknowledgment message to the sender after transmitting to a higher layer.

In addition, the present invention, in order to transmit and receive data and control information in parallel by using a control payload data unit, the parallel data transmission and reception apparatus of the data and control information provided with a processor, the data received from the upper layer of the RLC protocol entity A first function of transforming the RLC data PDU into a re-transmission buffer after extracting information to generate a hybrid ARQ control information control PDU; A second function of the RLC protocol entity receiving a re-transmission request message from a receiving side reading the corresponding RLC data PDU from the retransmission buffer, changing control information, and storing it in the retransmission buffer; A third function of performing MAC protocol processing and physical layer processing on the RLC data PDU and the hybrid ARQ control information control PDU, and then transmitting the parallel data to the receiving side in parallel; A fourth function of the RLC protocol entity receiving an ACK message from the receiving side clearing the corresponding RLC data PDU in the retransmission butter; A fifth function of storing data received from the transmitting side in a buffer and performing physical layer processing; A sixth function of extracting hybrid ARQ control information control PDU by performing MAC protocol processing and extracting control information for processing data stored in the buffer from the hybrid ARQ control information control PDU by performing RLC protocol processing; A seventh function of analyzing the extracted control information to determine whether the data stored in the buffer is the first received data; As a result of the check in the seventh function, if it is the first data, the RLC data PDU is extracted by performing physical layer processing and MAC protocol processing, and transmitted to a higher layer by performing RLC protocol entity processing, and then an acknowledgment message is sent to the sender. An eighth function of transmitting; And as a result of the check in the seventh function, if it is not the first data, perform RAR protocol data processing by extracting RLC data entity by performing hybrid ARQ type II / III signaling, physical layer processing, and MAC protocol processing. The present invention provides a computer-readable recording medium having recorded thereon a program for realizing a ninth function of transmitting an acknowledgment message to the transmitting side after transmitting to a higher layer.

As described above, the present invention relates to a parallel transmission / reception method of data and control information applicable to an asynchronous next generation mobile communication (IMT-2000) system. A new RLC control information PDU is defined to transmit a hybrid ARQ control information portion of data transmitted in parallel.

That is, in the present invention, in the interworking structure of an asynchronous next generation mobile communication (IMT-2000) system, in order to use the hybrid ARQ type II / III method of the signaling method, the hybrid ARQ control necessary for the hybrid ARQ type II / III method of the signaling method is essential. In the asynchronous next-generation mobile communication system, the information control PDU is generated by generating a header and a payload at the transmitting RLC protocol entity and a new RLC control information PDU format capable of interpreting both the header and the payload at the receiving RLC protocol entity. The hybrid ARQ type II / III scheme of the signaling scheme can be used smoothly.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary configuration diagram of a wireless communication network to which the present invention is applied.

As shown in FIG. 1, a wireless communication network to which the present invention is applied includes an asynchronous mobile station 10, an asynchronous wireless network 20, and a wireless communication core network (eg, a GSM-MAP core network or an ANSI-41 core network) 30. ) Is organically connected. Here, the hybrid ARQ type II / III scheme of the signaling scheme is a technique applied between the asynchronous mobile station 10 and the asynchronous wireless network 20, and a technique for transmitting data and corresponding control information to the receiver in parallel at the transmitter side. to be.

As such, the present invention provides a hybrid ARQ type II / III signaling scheme in order to use a hybrid ARQ type II / III signaling scheme in an interworking structure (see FIGS. 2A and 2B) of an asynchronous next generation mobile communication (IMT-2000) system. The hybrid ARQ control information control PDU, which is necessary in the III scheme, generates a header and a payload in the transmitting RLC protocol entity, and proposes a new RLC control information PDU format that can interpret both the header and the payload in the receiving RLC protocol entity. By doing so, a hybrid ARQ type II / III scheme of a signaling scheme can be used smoothly in an asynchronous next generation mobile communication system.

3 is a structural diagram of an embodiment of a control payload data unit according to the present invention.

An example of a hybrid ARQ control information control PDU format that must be transmitted simultaneously with an RLC data PDU when a signaling ARCH type II / III scheme is used in an asynchronous next generation mobile communication system is illustrated in FIG. A detailed description of parameters belonging to the ARQ control information control PDU format is given below.

First, the D / C field 301 indicates that the length is 1 bit and indicates whether the PDU type is a data PDU or a control PDU. That is, if the D / C field value is "0", it is a control PDU, and if the D / C field value is "1", it is a data PDU in an acknowledged mode.

The PDU type field 302 is 3 bits long and indicates a control PDU type. That is, if the PDU type field value is "000", it is a state control PDU, if the PDU type field value is "001", it is a reset control PDU, if the PDU type field value is "010", it is a reset response control PDU, and the PDU type field value is "100" indicates a hybrid ARQ control information control PDU.

The sequence number field 303 is 12 bits long and indicates a sequence number of the data PDU.

The version number field 304 is 8 bits long and indicates the number of retransmissions of the data PDU.

The reserved field 305 has a length of 8 * N bits (N> = 0) and is reserved in advance for defining hybrid ARQ control information defined later. If not used, null value (eg 0) is used.

In addition, the length of the PAD of the preliminary field 305 is not defined. This is because the hybrid ARQ control information control PDU is basically used by octet alignment. Therefore, it is used when octet alignment is not correct, and null (eg 0) value is used.

As described above, in the hybrid ARQ control information control PDU, the sequence number is the same as the sequence number of the RLC data PDU transmitted in parallel. In the hybrid ARQ control information control PDU, a version number refers to the number of retransmissions of the RLC data PDUs transmitted in parallel.

In this case, the sequence number functions to provide information to the physical layer when the RLC data PDUs transmitted in parallel are retransmitted to enable hybrid ARQ type II / III operation in the physical layer. It is used to provide information about physical layer processing that varies according to the number of retransmissions of RLC data PDUs transmitted in parallel.

4 is a flowchart illustrating a method for parallel transmission of data and control information using a control payload data unit according to the present invention, in which an asynchronous next generation mobile communication system uses a hybrid ARQ type II / III scheme of signaling. The operation flow of the transmitting side using the hybrid ARQ control information control PDU newly defined in FIG.

First, the sending RLC protocol entity receives a message (401).

Then, it is checked what message the received message is (402). That is, it is checked whether the received message is a data message transmitted from a higher layer (402).

As a result of the check 402, if the message received by the RLC protocol entity is a data message transmitted from a higher layer, the RLC protocol entity transforms the received data message into an RLC data PDU form through RLC protocol processing (403). ).

Thereafter, a sequence number and the like are extracted from the generated RLC data PDU (404).

Thereafter, a hybrid ARQ control information control PDU is generated based on the extracted information (405).

Thereafter, the RLC protocol entity stores the generated RLC data PDU in a re-transmission buffer before sending it to the receiver (406).

Thereafter, the RLC protocol entity transmits the generated RLC data PDU and the hybrid ARQ control information control PDU to the sending MAC protocol entity to transmit to the receiving side (407).

Thereafter, the MAC protocol entity receiving the RLC data PDU and the hybrid ARQ control information control PDU from the RLC protocol entity performs a MAC protocol processing operation defined in the MAC protocol standard (408).

Thereafter, after performing MAC protocol processing, the RLC data PDU transmits to the physical layer using the DSCH transport channel and the hybrid ARQ control information control PDU uses the DCH transport channel (409).

Subsequently, the physical layer receiving the RLC data PDU received from the MAC protocol entity through the DSCH transport channel and the hybrid ARQ control information control PDU received through the DCH transport channel performs a physical layer processing operation defined in the current physical layer standard. 410.

Subsequently, after performing physical layer processing, the RLC data PDU transmits the hybrid ARQ control information control PDU to the receiver in parallel through the DPCH physical channel through the PDSCH physical channel of the air link (411). ).

On the other hand, when the check result 402, if the message received by the RLC protocol entity is not a data message transmitted from a higher layer, the re-transmission request message received from the receiving side (re-transmission request message) Check whether it is (412).

As a result of the check 412, if the message received by the RLC protocol entity is a retransmission request message transmitted from the receiving side, the corresponding RLC data PDU is read from the re-transmission buffer (413).

Thereafter, the version number of the hybrid ARQ control information control PDU is increased by one among the hybrid ARQ control information control PDUs using the read RLC data PDU and the corresponding information (such as information on the number of retransmissions of the corresponding RLC data PDU). In step 414, the process is repeatedly performed, in step 406, of storing in the retransmission buffer.

On the other hand, if the check result 412, the message received by the RLC protocol entity is not a retransmission request message transmitted from the receiving side, it is checked whether the received message is an ACK message transmitted from the receiving side. (415). As a result of the confirmation 415, if the message is not recognized by the RLC protocol entity, the message is ignored because the message is not recognized by the RLC protocol entity.

On the other hand, if the confirmation result 415, the message received in the RLC protocol entity is a positive response message transmitted from the receiving side, the corresponding RLC data PDU is found in the retransmission butter and cleared (416), the message receiving process Go to 401 and wait for receiving another message.

5A and 5B are flowcharts illustrating an embodiment of a parallel reception method of data and control information using a control payload data unit according to the present invention, wherein an asynchronous next generation mobile communication system uses a hybrid ARQ type II / III scheme of signaling. In this case, the operation flow of the receiving side using the newly defined hybrid ARQ control information control PDU is shown.

First, the receiving side physical layer receives a message transmitted from the transmitting side through the PDSCH physical channel and the DPCH physical channel (501).

Thereafter, the physical layer receiving the message stores the data received through the PDSCH physical layer in a buffer (502).

Thereafter, the physical layer processing operation defined in the current physical layer standard is performed on the data received through the DPCH physical channel (503).

Thereafter, the physical layer processing is performed and then transmitted to the MAC protocol entity through the DCH transport channel (504).

Thereafter, the MAC protocol entity that receives data through the DCH transport channel from the physical layer performs a MAC protocol processing operation defined in the current MAC protocol specification to extract a hybrid ARQ control information control PDU. In operation 505, the extracted PDU is transmitted to the RLC protocol entity.

Thereafter, the RLC protocol entity receiving the hybrid ARQ control information control PDU from the MAC protocol entity performs an RLC protocol processing operation defined in the current RLC protocol specification. Then, information necessary to process data stored in the buffer of the current physical layer in the physical layer is extracted from the hybrid ARQ control information control PDU. Here, the extracted information is a sequence number and a version number.

Thereafter, the RLC protocol entity transmits the extracted information to the RRC protocol entity (507).

Thereafter, the RRC protocol entity receiving the information from the RLC protocol entity transmits the information to the physical layer using a control primitive (508).

Thereafter, the physical layer that receives the information for processing the data stored in the current buffer from the RRC protocol entity analyzes this information (509).

Then, it is checked whether the data stored in the current buffer is the first received data or not (510).

As a result of the check 510, if the data stored in the current buffer is the first received data, the physical layer performs a physical layer processing operation defined in the current physical layer standard, and then, as a MAC protocol entity through the DSCH transport channel. Transmit (511).

Thereafter, the MAC protocol entity receiving data from the physical layer through the DSCH transport channel performs a MAC protocol processing operation defined in the current MAC protocol specification, extracts an RLC data PDU, and transmits it to the RLC protocol entity (512). .

Thereafter, the RLC protocol entity receiving the RLC data PDU from the MAC protocol entity performs an RLC protocol entity processing operation defined in the current RLC protocol specification, and then transmits the data to the upper layer (513).

Thereafter, an acknowledgment message for the corresponding RLC data PDU is transmitted to the transmitter (514).

On the other hand, if the result of the check 510, the RLC data PDU currently stored in the buffer is not the first transmitted data, the physical layer performs a hybrid ARQ type II / III processing of the signaling method (515). Subsequently, the process repeats the process 511 of performing a physical layer processing operation defined in the current physical layer standard and then transmitting the MAC protocol entity through the DSCH transport channel.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes can be made in the art without departing from the technical spirit of the present invention. It will be apparent to those of ordinary knowledge.

As described above, the present invention uses a hybrid ARQ type II / III method of a signaling method in a next generation mobile communication system of a 3GPP method (GSM-MAP core network) or a 3GPP method (ANSI-41 core network). By adding a new type of hybrid ARQ control information control PDU format without changing the type and format of the previously defined RLC data PDUs, and the type and format of the control PDUs, signaling is easily performed without changing the operation of the existing RLC protocol entity. The hybrid ARQ type II / III method can be used.

In addition, the present invention provides a new PDU in the RLC protocol entity of the transmitting side in order to transmit the hybrid ARQ information from the transmitting side to the receiving side as well as the technical field using the hybrid ARQ type II / III scheme of the signaling method in the asynchronous next generation mobile communication system. There is an effect that can be applied to other technical fields using the method of generating and transmitting the.

Claims (20)

In the parallel transmission method of data and control information using a control payload data unit applied to a parallel transmission device of data and control information, A first method in which an RLC protocol entity transforms data received from an upper layer into an RLC data PDU to extract information to generate a hybrid ARQ control information control PDU, and then stores the RLC data PDU in a re-transmission buffer; step; A second step of the RLC protocol entity receiving a re-transmission request message from a receiver, reading the corresponding RLC data PDU from the retransmission buffer, changing control information, and storing it in the retransmission buffer; A third step of performing MAC protocol processing and physical layer processing on the RLC data PDU and the hybrid ARQ control information control PDU, and then transmitting them to the receiving side in parallel; And A fourth step in which the RLC protocol entity that has received an acknowledgment message from the receiving side clears the corresponding RLC data PDU in the retransmission butter. Parallel transmission method of data and control information using a control payload data unit comprising a. The method of claim 1, A fifth step in which the RLC protocol entity receives a data message from an upper layer; A sixth step of the RLC protocol entity transforming a data message received through RLC protocol processing into an RLC data PDU form; A seventh step in which the RLC protocol entity extracts information such as a sequence number from the RLC data PDU; An eighth step of the RLC protocol entity generating a hybrid ARQ control information control PDU based on the extracted information; And A ninth step of the RLC protocol entity storing the generated RLC data PDU in the re-transmission buffer before transmitting it to a receiver; Parallel transmission method of data and control information using a control payload data unit comprising a. The method of claim 1, The second step, A fifth step in which the RLC protocol entity receives a retransmission request message of the receiving side from an upper layer; A sixth step in which the RLC protocol entity reads the corresponding RLC data PDU from the re-transmission buffer; A version number of a hybrid ARQ control information control PDU among hybrid ARQ control information control PDUs using the RLC data PDU read by the RLC protocol entity and corresponding information (such as retransmission count information of the corresponding RLC data PDU). A seventh step of increasing c); And An eighth step of the RLC protocol entity storing the generated RLC data PDU in the re-transmission buffer before transmitting it to a receiving side; Parallel transmission method of data and control information using a control payload data unit comprising a. The method of claim 1, The third step, A fifth step of the RLC protocol entity transmitting the generated RLC data PDU and the hybrid ARQ control information control PDU to a sending MAC protocol entity for sending to a receiving side; After the MAC protocol entity performs MAC protocol processing, the RLC data PDU uses a DSCH transport channel, and the hybrid ARQ control information control PDU transmits to a physical layer using a DCH transport channel. step; And After performing physical layer processing in the physical layer, transmitting the RLC data PDU to the receiving side in parallel through a PDSCH physical channel and the hybrid ARQ control information control PDU in parallel through a DPCH physical channel; Parallel transmission method of data and control information using a control payload data unit comprising a. The method according to any one of claims 1 to 4, The hybrid ARQ control information control PDU, A D / C field for indicating whether the PDU type is a data PDU or a control PDU; A PDU type field for indicating a control PDU type; A Sequence Number field for indicating a Sequence Number of the data PDU; And Version Number field to indicate the number of retransmissions of the data PDU Parallel transmission method of data and control information using a control payload data unit comprising a. The method of claim 5, The hybrid ARQ control information control PDU, The control payload data may further include a reserved field secured in advance to define hybrid ARQ control information defined later, wherein the reserved field performs a function for aligning octet alignment. Parallel transmission method of data and control information using a unit. In the parallel reception method of data and control information using a control payload data unit applied to a parallel reception device of data and control information, A first step of storing data received from a transmitting side in a buffer and performing physical layer processing; Performing a MAC protocol processing to extract a hybrid ARQ control information control PDU, and performing RLC protocol processing to extract control information for processing data stored in the buffer from the hybrid ARQ control information control PDU; A third step of analyzing the extracted control information to determine whether the data stored in the buffer is the first received data; As a result of the checking of the third step, if it is the first data, the RLC data PDU is extracted by performing physical layer processing and MAC protocol processing, and transmitted to the upper layer by performing RLC protocol entity processing, and then sending an acknowledgment message to the sender. A fourth step of doing; And As a result of the checking of the third step, if it is not the first data, the RLC data PDU is extracted by performing hybrid ARQ type II / III signaling, physical layer processing, and MAC protocol processing of a signaling method, and performing RLC protocol entity processing. A fifth step of transmitting an acknowledgment message to the sender after transmitting to a higher layer Parallel receiving method of data and control information using a control payload data unit comprising a. The method of claim 7, wherein The first step is, A sixth step of receiving a message transmitted from the transmitting side through a PDSCH physical channel and a DPCH physical channel at a physical layer at a receiving side; A seventh step of storing data received through the PDSCH physical layer in the physical layer in the buffer; An eighth step of performing physical layer processing on data received through a DPCH physical channel in the physical layer; And A ninth step of transmitting data, which has undergone physical layer processing at the physical layer, to a MAC protocol entity through a DCH transport channel; Parallel receiving method of data and control information using a control payload data unit comprising a. The method of claim 8, The second step, A tenth step of the MAC protocol entity performing MAC protocol processing to extract a hybrid ARQ control information control PDU and transmit it to an RLC protocol entity; After the RLC protocol entity performs RLC protocol processing to extract control information required to process data stored in a buffer of the physical layer in the physical layer from the hybrid ARQ control information control PDU, the extracted control information is extracted from the RRC protocol. An eleventh step of transmitting to the entity; And A twelfth step of transmitting the RRC protocol entity to the physical layer using a control primitive; Parallel receiving method of data and control information using a control payload data unit comprising a. The method of claim 9, The third step, A thirteenth step of analyzing control information received at the physical layer; And Step 14 of confirming whether the data stored in the buffer is the first received data Parallel receiving method of data and control information using a control payload data unit comprising a. The method of claim 10, The fourth step, A fifteenth step of performing physical layer processing in the physical layer and then transmitting the data to the MAC protocol entity through a DSCH transmission channel if the data stored in the buffer is first received data; A 16th step of the MAC protocol entity performing Mac protocol processing to extract an RLC data PDU and transmit it to an RLC protocol entity; A 17th step of the RLC protocol entity performing RLC protocol entity processing and then transmitting to an upper layer; And An eighteenth step of transmitting an acknowledgment message for the RLC data PDU to the sender; Parallel receiving method of data and control information using a control payload data unit comprising a. The method of claim 11, The fifth step, A nineteenth step of performing hybrid ARQ type II / III processing of a signaling method in the physical layer if the RLC data PDU stored in the buffer is not the first received data as a result of the checking of the fourteenth step; Performing a physical layer processing in the physical layer, and then transmitting the MAC protocol entity through a DSCH transport channel; A twenty-first step of the MAC protocol entity performing MAC protocol processing to extract an RLC data PDU and transmit it to an RLC protocol entity; A twenty-second step of transmitting, by the RLC protocol entity to an upper layer after performing RLC protocol entity processing; And A twenty-third step of transmitting an acknowledgment message for the RLC data PDU to the sender; Parallel receiving method of data and control information using a control payload data unit comprising a. The method according to any one of claims 7 to 12, The hybrid ARQ control information control PDU, A D / C field for indicating whether the PDU type is a data PDU or a control PDU; A PDU type field for indicating a control PDU type; A Sequence Number field for indicating a Sequence Number of the data PDU; And Version Number field to indicate the number of retransmissions of the data PDU Parallel receiving method of data and control information using a control payload data unit comprising a. The method of claim 13, The hybrid ARQ control information control PDU, The control payload data may further include a reserved field secured in advance to define hybrid ARQ control information defined later, wherein the reserved field performs a function for aligning octet alignment. Parallel reception method of data and control information using a unit. In the parallel transmission and reception method of data and control information using a control payload data unit applied to a parallel transmission and reception device of data and control information, A first method in which an RLC protocol entity transforms data received from an upper layer into an RLC data PDU to extract information to generate a hybrid ARQ control information control PDU, and then stores the RLC data PDU in a re-transmission buffer; step; A second step of the RLC protocol entity receiving a re-transmission request message from a receiver, reading the corresponding RLC data PDU from the retransmission buffer, changing control information, and storing it in the retransmission buffer; A third step of performing MAC protocol processing and physical layer processing on the RLC data PDU and the hybrid ARQ control information control PDU, and then transmitting them to the receiving side in parallel; A fourth step of the RLC protocol entity receiving an ACK message from the receiver clearing the corresponding RLC data PDU in the retransmission butter; A fifth step of storing data received from a transmitting side in a buffer and performing physical layer processing; Performing a MAC protocol processing to extract a hybrid ARQ control information control PDU, and performing RLC protocol processing to extract control information for processing data stored in the buffer from the hybrid ARQ control information control PDU; A seventh step of analyzing the extracted control information and checking whether the data stored in the buffer is the first received data; As a result of the checking of the seventh step, if the first data, the RLC data PDU is extracted by performing physical layer processing and MAC protocol processing, and transmitted to the upper layer by performing RLC protocol entity processing, and then transmits an acknowledgment message to the sender. An eighth step; And As a result of the checking of the seventh step, if it is not the first data, the RLC data PDU is extracted by performing hybrid ARQ type II / III signaling, physical layer processing and MAC protocol processing of a signaling method, and performing RLC protocol entity processing. A ninth step of transmitting an acknowledgment message to the sender after transmitting to a higher layer Parallel transmission and reception method of data and control information using a control payload data unit comprising a. The method of claim 15, The hybrid ARQ control information control PDU, A D / C field for indicating whether the PDU type is a data PDU or a control PDU; A PDU type field for indicating a control PDU type; A Sequence Number field for indicating a Sequence Number of the data PDU; And Version Number field to indicate the number of retransmissions of the data PDU Parallel transmission and reception method of data and control information using a control payload data unit comprising a. In the parallel transmission and reception method of data and control information applied to a parallel transmission and reception apparatus of data and control information, In order to use a hybrid ARQ type II / III method of a signaling method in a next generation mobile communication system of asynchronous type, a hybrid ARQ control information control PDU for transmitting hybrid ARQ control information is set in an RLC protocol entity, and then hybrid Using the ARQ control information control PDU transmit and receive data and control information about the data in parallel, The hybrid ARQ control information control PDU, A D / C field for indicating whether the PDU type is a data PDU or a control PDU; A PDU type field for indicating a control PDU type; A Sequence Number field for indicating a Sequence Number of the data PDU; And Version Number field to indicate the number of retransmissions of the data PDU Parallel transmission and reception method of data and control information using a control payload data unit comprising a. In order to transmit data and control information in parallel using the control payload data unit, to a parallel transmission apparatus of data and control information having a processor, A first method in which an RLC protocol entity transforms data received from an upper layer into an RLC data PDU to extract information to generate a hybrid ARQ control information control PDU, and then stores the RLC data PDU in a re-transmission buffer; function; A second function of the RLC protocol entity receiving a re-transmission request message from a receiving side reading the corresponding RLC data PDU from the retransmission buffer, changing control information, and storing it in the retransmission buffer; A third function of performing MAC protocol processing and physical layer processing on the RLC data PDU and the hybrid ARQ control information control PDU and then transmitting the parallel data to the receiving side in parallel; And A fourth function for the RLC protocol entity receiving an ACK message from the receiving side to clear the corresponding RLC data PDU in the retransmission butter A computer-readable recording medium having recorded thereon a program for realizing this. In order to receive data and control information in parallel using the control payload data unit, the parallel receiving apparatus having data and control information having a processor, A first function of storing data received from a transmitting side in a buffer and performing physical layer processing; A second function of extracting hybrid ARQ control information control PDU by performing MAC protocol processing and extracting control information for processing data stored in the buffer from the hybrid ARQ control information control PDU by performing RLC protocol processing; A third function of analyzing the extracted control information to determine whether the data stored in the buffer is the first received data; As a result of the confirmation in the third function, if the first data is obtained, the RLC data PDU is extracted by performing physical layer processing and MAC protocol processing, and transmitted to a higher layer by performing RLC protocol entity processing, and then an acknowledgment message is sent to the sender. A fourth function of transmitting; And As a result of the confirmation in the third function, if it is not the first data, the RLC data PDU is extracted and the RLC protocol entity processing is performed by performing hybrid ARQ type II / III signaling, physical layer processing, and MAC protocol processing of a signaling method. A fifth function of transmitting an acknowledgment message to the sender after transmitting to a higher layer A computer-readable recording medium having recorded thereon a program for realizing this. In order to transmit and receive data and control information in parallel using a control payload data unit, a parallel transmission and reception apparatus of data and control information having a processor, A first method in which an RLC protocol entity transforms data received from an upper layer into an RLC data PDU to extract information to generate a hybrid ARQ control information control PDU, and then stores the RLC data PDU in a re-transmission buffer; function; A second function of the RLC protocol entity receiving a re-transmission request message from a receiving side reading the corresponding RLC data PDU from the retransmission buffer, changing control information, and storing it in the retransmission buffer; A third function of performing MAC protocol processing and physical layer processing on the RLC data PDU and the hybrid ARQ control information control PDU and then transmitting the parallel data to the receiving side in parallel; A fourth function of the RLC protocol entity receiving an ACK message from the receiving side clearing the corresponding RLC data PDU in the retransmission butter; A fifth function of storing data received from the transmitting side in a buffer and performing physical layer processing; A sixth function of extracting hybrid ARQ control information control PDU by performing MAC protocol processing and extracting control information for processing data stored in the buffer from the hybrid ARQ control information control PDU by performing RLC protocol processing; A seventh function of analyzing the extracted control information to determine whether the data stored in the buffer is the first received data; As a result of the check in the seventh function, if it is the first data, the RLC data PDU is extracted by performing physical layer processing and MAC protocol processing, and transmitted to a higher layer by performing RLC protocol entity processing, and then an acknowledgment message is sent to the sender. An eighth function of transmitting; And As a result of the check in the seventh function, if it is not the first data, the RLC data PDU is extracted by performing hybrid ARQ type II / III signaling, physical layer processing, and MAC protocol processing of a signaling method, and performing RLC protocol entity processing. Function of transmitting an acknowledgment message to the sender after transmitting to a higher layer A computer-readable recording medium having recorded thereon a program for realizing this.