JP7027690B2 - Information processing equipment, communication systems, communication methods and programs - Google Patents

Description

The present invention relates to information processing devices, communication systems, communication methods and programs.

In a radio access network (E-UTRAN; Evolved Universal Terrestrial Radio Access Network) in an LTE (Long Term Evolution) mobile communication system, a radio base station (evolved Node B) and a mobile station (User Equipment) are wirelessly linked. Communication is performed via (RL; Radio Link). Then, when the data received from the radio base station is missing (for example, when packet loss occurs), the mobile station requests the radio base station to retransmit the data.

FIG. 2 is a block diagram showing an example of a configuration of a radio access network in an LTE mobile communication system. The E-UTRAN includes a radio base station eNB 100 and a mobile station UE (User Equipment) 200. Between the radio base station eNB 100 and the mobile station UE 200, the eNB 100 and the mobile station UE 200 communicate with each other via a wireless link.

The radio base station eNB 100 includes a PDCP (Packet Data Convergence Protocol) sublayer 101, an RLC (Radio Link Control) sublayer 102, a MAC (Media Access Control) sublayer 103, a physical (PHY) layer 104, and a radio unit 105. Consists of including. Similarly, the mobile station UE 200 includes a PDCP sublayer 201, an RLC sublayer 202, a MAC sublayer 203, a physical layer 204, and a radio unit 205. Further, the radio base station eNB 100 and the mobile station UE 200 are each configured to include a transmitting side device (not shown) and a receiving side device (not shown). In the following description, the radio base station eNB 100 and the mobile station UE 200 will be referred to as eNB 100 and UE 200, respectively.

The transmitting device of the eNB 100 generates C-Plane (Control Plane) data or U-Plane (User Plane) data in the PDCP sublayer 101. Hereinafter, data indicating at least one of C-Plane (Control Plane) data and U-Plane (User Plane) data is referred to as "C / U plane data". Then, the transmitting side device of the eNB 100 processes data (C / U plane data) in the order of PDCP sublayer 101, RLC sublayer 102, MAC sublayer 103, and physical layer 104. Then, the transmitting side device of the eNB 100 outputs a wireless signal via the wireless unit 105. On the other hand, the receiving side device of the eNB 100 receives the radio signal via the radio unit 105. Then, the receiving side device of the eNB 100 processes the data in the order of the physical layer 104, the MAC sublayer 103, the RLC sublayer 102, and the PDCP sublayer 101. Then, the receiving side device of the eNB 100 generates C / U plane data.

Further, the transmitting side device of the UE 200 receives the C / U plane data from the device outside the UE 200 in the PDCP sublayer 201. Then, the transmitting side device of the UE 200 processes the transmitted data (C / U plane data) in the order of PDCP sublayer 201, RLC sublayer 202, MAC sublayer 203, and physical layer 204. Then, the transmitting side device of the UE 200 outputs a wireless signal via the wireless unit 205. On the other hand, the receiving side device of the UE 200 receives the radio signal via the radio unit 205. Then, the receiving side device of the UE 200 processes the data in the order of the physical layer 204, the MAC sublayer 203, the RLC sublayer 202, and the PDCP sublayer 201. Then, the receiving side device of the eNB 100 generates C / U plane data.

Hereinafter, the RLC sublayers 102 and 202 and the MAC sublayers 103 and 203 will be described in detail with reference to FIG.

FIG. 3 is a block diagram showing an example of the internal configuration of the RLC sublayers 102 and 202 and the MAC sublayers 103 and 203. The eNB 100 and the UE 200 execute the processing of the transparent mode (TM), the unacknowledged mode (UM), and the acknowledgment mode (AM) in the RLC sublayers 102 and 202. In the following description, the processing of the acknowledgment mode that controls the retransmission will be described.

First, the RLC sublayer 102 of the eNB 100 will be described in detail.

The RLC sublayer 102 of the eNB 100 includes an RLC SDU (Service Data Unit) receiving unit 11, a transmission buffer 12, a transmission control unit 13, an RLC PDU (Protocol Data Unit) creating unit 15, and an RLC PDU (Protocol Data Unit) creating unit 15. It includes an RLC PDU transmission unit 16. Further, the RLC sublayer 102 of the eNB includes an RLC PDU receiving unit 81, a receiving buffer 83, an RLC SDU creating unit 84, and an RLC SDU transmitting unit 85. Further, the eNB 100 creates and holds (stores) a transmission retransmission request 14 and a received retransmission request 82 in the RLC sublayer 102.

The RLC SDU receiving unit 11 receives the RLC SDU from the PDCP sublayer 101 and stores it in the transmission buffer 12.

The RLC PDU creation unit 15 retransmits from the transmission buffer 12 or acquires new transmission data according to the instruction from the transmission control unit 13, and creates an RLC PDU as an RLC data PDU. Further, the RLC PDU creation unit 15 may create a retransmission request as an RLC control PDU based on the transmission retransmission request 14 according to the instruction from the transmission control unit 13.

When the RLC PDU creation unit 15 acquires new transmission data from the transmission buffer 12 and creates an RLC data PDU, the RLC PDU creation unit 15 assigns an RLC sequence number (RLC (Radio Link Control) SN (Sequence Number)) to the RLC header. do. Further, the RLC PDU creation unit 15 transmits information indicating the relationship between the new transmission data acquired from the transmission buffer 12 and the RLC sequence number assigned to the RLC header to the transmission control unit 13.

The transmission control unit 13 retransmits the RLC data PDU using the RLC sequence number based on the received retransmission request 82. The received retransmission request 82 will be described later. Here, when retransmitting the RLC data PDU, the transmission control unit 13 uses the RLC sequence number having the same value as when the RLC data PDU is newly transmitted.

Further, when the transmission control unit 13 retransmits the RLC data PDU, if the amount of data that can be transmitted is less than the data size (simply referred to as the size) of the original RLC data PDU, the transmission control unit 13 causes the RLC. Data PDU is divided and transmitted. In that case, the transmission control unit 13 adds an SO (Segment Offset) indicating the start position of the retransmission to the RLC header in order to indicate which part of the original RLC data PDU is to be retransmitted.

The RLC PDU transmission unit 16 transmits the RLC data PDU created by the RLC PDU creation unit 15 to the MAC sublayer 103.

Further, when the eNB 100 receives the retransmission request from the UE 200, the eNB 100 holds (stores) it as the received retransmission request 82 transmitted from the UE 200.

The operations of the RLC PDU receiving unit 81, the receiving buffer 83, the RLC SDU creating unit 84, and the RLC SUD transmitting unit 85 are the RLC PDU receiving unit 41, the receiving buffer 43, the RLC SDU creating unit 44, and the RLC SDU transmission of the UE 200, which will be described later. Since it is the same as the operation of the unit 45, detailed description thereof will be omitted.

Next, the MAC sublayer 103 of the eNB 100 will be described in detail.

The MAC sublayer 103 of the eNB 100 includes a MAC SDU receiving unit 21, a MAC PDU creating unit 22, and a MAC PDU transmitting unit 23. Further, the MAC sublayer 103 of the eNB 100 includes a MAC PDU receiving unit 71, a MAC SDU creating unit 72, and a MAC SDU transmitting unit 73. The MAC PDU receiving unit 71 is also referred to as a data unit receiving unit. Further, the MAC PDU creation unit 22 is also referred to as a data unit creation unit. Further, the MAC PDU transmission unit 23 is also referred to as a data unit transmission unit.

The MAC SDU receiving unit 21 receives the RLC data PDU (RLC data protocol data unit) transmitted from one or more bearers to the MAC sublayer 103 as a MAC SDU (MAC service data unit).

The MAC PDU creation unit 22 creates a MAC PDU (MAC protocol data unit) by multiplexing a plurality of (two or more) MAC SDUs.

The MAC PDU transmission unit 23 transmits the MAC PDU created by the MAC PDU creation unit 22 to the UE 200 via the physical layer 104 and the radio unit 105.

The operations of the MAC PDU receiving unit (data unit receiving unit) 71, the MAC SDU creating unit 72, and the MAC SDU transmitting unit 73 are the MAC PDU receiving unit 31, MAC SDU creating unit 32, and MAC SDU transmitting unit 33 of the UE 200, which will be described later. Since it is the same as the operation of, detailed description thereof will be omitted.

Next, the MAC sublayer 203 of the UE 200 will be described in detail.

The MAC sublayer 203 of the UE 200 includes a MAC PDU receiving unit 31, a MAC SDU creating unit 32, and a MAC SDU transmitting unit 33. Further, the MAC sublayer 203 of the UE 200 includes a MAC SDU receiving unit 61, a MAC PDU creating unit 62, and a MAC PDU transmitting unit 63. The MAC PDU receiving unit 31 is also referred to as a data unit receiving unit. Further, the MAC PDU creation unit 62 is also referred to as a data unit creation unit. Further, the MAC PDU transmission unit 63 is also referred to as a data unit transmission unit.

The MAC PDU receiving unit 31 receives the MAC PDU transmitted from the eNB 100 via the physical layer 204.

The MAC SDU creation unit 32 decomposes the MAC PDU received by the MAC PDU receiving unit 31 and creates a MAC SDU.

The MAC SDU transmission unit 33 transmits the MAC SDU created by the MAC SDU creation unit 32 to the RLC sublayer 202 of each bearer.

The operations of the MAC SDU receiving unit 61, the MAC PDU creating unit 62, and the MAC PDU transmitting unit 63 are the same as the operations of the MAC SDU receiving unit 21, MAC PDU creating unit 22, and MAC PDU transmitting unit 23 of the eNB 100 described above. Therefore, a detailed description will be omitted.

Next, the RLC sublayer 202 of the UE 200 will be described in detail.

The RLC sublayer 202 of the UE 200 includes an RLC PDU receiving unit 41, a receiving buffer 43, an RLC SDU creating unit 44, and an RLC SDU transmitting unit 45. Further, the RLC sublayer 202 of the UE 200 includes an RLC SDU receiving unit 51, a transmission buffer 52, a transmission control unit 53, an RLC PDU creation unit 55, and an RLC PDU transmission unit 56. Further, the UE 200 creates and holds (stores) a transmission retransmission request 54 and a received retransmission request 42 in the RLC sublayer 202.

The RLC PDU receiving unit 41 receives the MAC SDU transmitted from the MAC sublayer 203 as an RLC PDU (RLC protocol data unit).

The RLC PDU receiving unit 41 registers the retransmission request from the eNB 100 among the received RLC PDUs as the received retransmission request 42. On the other hand, the RLC PDU receiving unit 41 stores the RLC data PDU (RLC data protocol data unit) corresponding to other than the retransmission request from the eNB 100 among the received RLC PDUs in the receiving buffer 43.

The RLC SDU creation unit 44 acquires the RLC data PDU from the receive buffer 43. Then, the RLC SDU creation unit 44 creates an RLC SDU based on the RLC data PDU acquired from the receive buffer 43.

The RLC SDU transmission unit 45 transmits the RLC SDU created by the RLC SDU creation unit 44 to the PDCP sublayer 201.

For example, when the RLC PDU receiving unit 41 has a missing RLC sequence number in the received RLC data PDU, the RLC PDU receiving unit 41 requests the retransmission of the RLC data PDU. When the RLC PDU receiving unit 41 requests the retransmission of the RLC data PDU, the RLC PDU receiving unit 41 creates the transmission retransmission request 54 when the RLC PDU receiving unit 41 creates the RLC PDU.

The RLC PDU receiving unit 41 uses the RLC sequence number to determine whether or not the RLC data PDU has been received. Then, the RLC PDU receiving unit 41 registers the RLC sequence number included in the received RLC data PDU as an acknowledgment sequence number (ACK (Acknowledgement) SN (Sequence Number)) in the transmission retransmission request 54. On the other hand, the UE 200 registers the RLC sequence number not included in the received RLC data PDU as a non-affirmative response sequence number (NACK (Negative Acknowledgement) SN (Sequence Number)) in the transmission retransmission request 54.

Here, the acknowledgment sequence number (ACK SN) is an RLC sequence number that is not notified as unreceived in the retransmission request. On the other hand, the non-affirmative response sequence number (NACK SN) is an RLC sequence number that is notified as unreceived in the retransmission request.

When the eNB 100 divides and transmits the RLC data PDU and a part of the RLC data PDU is not received in the UE 200, the RLC PDU receiving unit 41 sends SOs (SOstart) to the transmission retransmission request 54. ), SOe (SOend) is specified, and the unreceived part of the RLC data PDU is specified.

When there are a plurality of unreceived RLC data PDUs, the RLC PDU receiving unit 41 sets a plurality of NACK SNs in the transmission retransmission request 54.

The operation of the RLC SDU receiving unit 51, the transmission buffer 52, the RLC PDU creating unit 55, and the RLC PDU transmitting unit 56 is the operation of the RLC SDU receiving unit 11, the transmission buffer 12, the RLC PDU creating unit 15, and the RLC PDU transmission of the above eNB 100. Since it is the same as the operation of the unit 16, detailed description thereof will be omitted.

Here, the format of the retransmission request 54 for transmission will be outlined with reference to FIG. 4 (see Non-Patent Document 1 for details). The D / C (Data / Control) field indicates whether the RLC PDU is an RLC data PDU or an RLC control PDU. The CPT (Control PDU Type) field indicates the type of RLC cone PDU. The ACK SN field indicates an RLC sequence number (ie, ACK SN) to be notified as received in the retransmission request. The NACK SN field indicates an RLC sequence number (that is, NACK SN) to be notified as unreceived in the retransmission request. The SOs field and the SOe field indicate SOs (SOstart) and SOe (SOend) that specify unreceived parts. The E1 (Extension bit 1) field indicates whether or not a pair of a NACK SN field, an E1 field, and an E2 field is inserted. The E2 (Extension bit 2) field indicates whether or not a pair of SOs field and SOe field is inserted.

Patent Document 1 describes a technique in which a receiving device receives an RLC (Radio Link Control) PDU (Protocol Data Unit) and discards the RLC PDU when there is an error in the received RLC PDU. Then, in the technique described in Patent Document 1, when the RLC PDU with an error is received, the retransmission pattern is determined after discarding the RLC PDU.

International Publication No. 2010/126068

3GPP TS 36.322 V8.4.0 (2008-12) Technical Specification 3rd Generation Partnership Project; Technical Specification Group Radio Access Network; Evolved Universal Terrestrial Radio Access (E-UTRA) Radio Link Control (RLC) protocol specification (Release 8), (6 Protocol data units, formats and parameters, 6.2.1.4 AMD PDU, 6.2.2 PARAMETERS)

The disclosure of the above prior art document shall be incorporated into this document by citation. The following analysis was made from the point of view of the present invention.

In the above radio access network, the MAC PDU transmission unit 23 of the eNB 100 transmits a MAC PDU to the UE 200 in units of MAC PDUs (that is, for each MAC PDU). Then, the MAC PDU receiving unit 31 of the UE 200 receives the MAC PDU from the eNB 100 in units of MAC PDUs. Then, when the UE 200 makes a retransmission request for the MAC PDU, the UE 200 makes a retransmission request for the MAC PDU to the eNB 100 in units of the MAC PDU.

However, when a plurality of MAC SDUs are multiplexed (stored) in the MAC PDU, the RLC PDU receiving unit 41 of the UE 200 sets the RLC sequence numbers of the plurality of RLC data PDUs in the transmission retransmission request 54 by NACK SN. It is necessary to set as and make a resend request. As a result, when a plurality of MAC SDUs are multiplexed in the MAC PDU, the RLC sequence number set as NACK SN increases in the transmission retransmission request 54.

Alternatively, the RLC PDU receiving unit 41 of the UE 200 specifies SOs (SOstart) and SOe (SOend) in the transmission retransmission request 54, and specifies an unreceived portion of the RLC data PDU. In that case, the data size of the retransmission request 54 for transmission increases as the number of places where SOs and SOe are specified increases. As a result, the throughput between the UE 200 and the eNB 100 decreases as the number of places where SOs and SOe are specified increases.

The technique described in Patent Document 1 does not describe that when a retransmission request is made, it is possible to suppress an increase in the data size of the retransmission request and efficiently realize data retransmission.

Therefore, an object of the present invention is to provide an information processing device, a communication system, a communication method, and a program that contribute to efficiently realizing data retransmission in an LTE mobile communication system.

According to the first aspect of the present invention, an information processing apparatus is provided. The information processing apparatus is a MAC protocol data unit to which identification information for identifying a MAC protocol data unit is assigned, and receives the MAC protocol data unit in which one or more MAC service data units are stored. It is equipped with a data unit receiver.
Further, the information processing apparatus includes a retransmission determination unit that determines whether or not to request retransmission of the MAC protocol data unit.
Further, the information processing apparatus includes a data unit creation unit that creates a protocol data unit to which the identification information is added, which identifies the MAC protocol data unit to be a retransmission request, as a retransmission request.
Further, the information processing apparatus includes a data unit transmission unit that transmits the retransmission request created by the data unit creation unit to the transmission source of the MAC protocol data unit.

According to the second aspect of the present invention, a communication system is provided. The communication system includes a first device and a second device.
The second device is a MAC protocol data unit to which identification information for identifying a MAC protocol data unit is assigned, and the MAC protocol data unit in which one or more MAC service data units are stored is referred to as the MAC protocol data unit. It includes a data unit receiving unit that receives data from the first device.
Further, the second device includes a retransmission determination unit that determines whether or not to request retransmission of the MAC protocol data unit.
Further, the second device includes a data unit creation unit that creates a protocol data unit to which the identification information is added, which identifies the MAC protocol data unit to be retransmitted, as a retransmission request.
Further, the second device includes a data unit transmission unit that transmits a retransmission request created by the data unit creation unit to the first device.
The first device includes a corresponding storage unit that stores the identification information of the MAC protocol data unit and the relationship with the MAC service data unit.
Further, the first apparatus refers to the relationship between the identification information of the MAC protocol data unit stored by the corresponding storage unit and the MAC service data unit, and the retransmission transmitted from the second apparatus. A retransmission instruction unit for specifying the RLC data protocol data unit included in the MAC protocol data unit corresponding to the identification information attached to the request is provided.
Further, the first device includes a transmission control unit that retransmits the RLC data protocol data unit specified by the retransmission instruction unit to the second device.

According to the third aspect of the present invention, a communication method is provided. The communication method is a MAC protocol data unit to which identification information for specifying a MAC protocol data unit is assigned, and is a step of receiving the MAC protocol data unit in which one or more MAC service data units are stored. include.
Further, the communication method includes a step of determining whether or not to request retransmission of the MAC protocol data unit.
Further, the communication method includes a step of creating a protocol data unit to which the identification information is added, which identifies the MAC protocol data unit to be a retransmission request, as a retransmission request.
Further, the communication method includes a step of transmitting the created retransmission request to the source of the MAC protocol data unit.
It should be noted that this method is linked to a specific machine called an information processing device that communicates via a wireless link.

According to the fourth aspect of the present invention, the program is provided. The program is a MAC protocol data unit to which identification information for identifying a MAC protocol data unit is assigned, and is a process of receiving the MAC protocol data unit in which one or more MAC service data units are stored. Let the computer that controls the information processing device execute it.
Further, the program causes the computer to execute a process of determining whether or not to request retransmission of the MAC protocol data unit.
Further, the program causes the computer to execute a process of creating a protocol data unit to which the identification information is added, which identifies the MAC protocol data unit to be a retransmission request, as a retransmission request.
Further, the program causes the computer to execute a process of transmitting the created retransmission request to the source of the MAC protocol data unit.
This program can be recorded on a storage medium that can be read by a computer. The storage medium may be a non-transient such as a semiconductor memory, a hard disk, a magnetic recording medium, or an optical recording medium. The present invention can also be embodied as a computer program product.

According to each viewpoint of the present invention, an information processing device, a communication system, a communication method, and a program that contribute to efficiently realizing data retransmission in an LTE mobile communication system are provided.

It is a figure for demonstrating the outline of one Embodiment. It is a block diagram which shows an example of the structure of a wireless access network. It is a block diagram which shows an example of the internal structure of RLC sublayers 102, 202, and MAC sublayers 103, 203. It is a figure which shows an example of the format of the retransmission request 54 for transmission. It is a block diagram which shows an example of the structure of a wireless access network. It is a block diagram which shows an example of the internal structure of RLC sublayers 302, 402, and MAC sublayers 303, 403. It is a figure which shows an example of the format of MAC PDU.

First, an outline of one embodiment will be described with reference to FIG. It should be noted that the drawing reference reference numerals added to this outline are added to each element for convenience as an example for assisting understanding, and the description of this outline is not intended to limit anything. Further, the connection line between the blocks in each block diagram includes both bidirectional and unidirectional. The one-way arrow schematically shows the flow of the main signal (data), and does not exclude bidirectionality.

As described above, in the LTE mobile communication system, an information processing device that contributes to efficiently retransmitting data is desired.

Therefore, as an example, the information processing apparatus 1000 shown in FIG. 1 is provided. The information processing apparatus 1000 includes a data unit receiving unit 1001, a retransmission determination unit 1002, a data unit creating unit 1003, and a data unit transmitting unit 1004.

The data unit receiving unit 1001 receives the MAC protocol data unit (MAC PDU). Specifically, the data unit receiving unit 1001 is a MAC PDU to which identification information for identifying a MAC PDU is assigned, and is a MAC PDU in which one or more MAC service data units (MAC SDU) are stored. Receive.

The retransmission determination unit 1002 determines whether or not to request the retransmission of the MAC PDU. For example, when the MAC PDU received by the data unit receiving unit 1001 is missing (for example, when a packet loss occurs), the retransmission determination unit 1002 requests the MAC PDU to be retransmitted.

The data unit creation unit 1003 creates a MAC PDU with identification information that identifies the MAC PDU to be retransmitted as a retransmission request.

The data unit transmission unit 1004 transmits the retransmission request created by the data unit creation unit 1003 to the transmission source of the MAC PDU received by the data unit reception unit 1001.

For example, when the RLC sequence numbers of a plurality of RLC data PDUs are set as NACK SN and a retransmission request is made, as the number of MAC SDUs stored in the MAC PDU increases, the RLC sequence numbers are set as NACK SN in the retransmission request. RLC sequence number increases. As a result, as the number of MAC SDUs stored in the MAC PDU increases, the data size of the retransmission request increases.

However, the information processing apparatus 1000 creates a MAC PDU with identification information that identifies the MAC PDU to be retransmitted as a retransmission request. Therefore, the information processing apparatus 1000 can suppress an increase in the data size of the retransmission request even when the number of MAC SDUs stored in the MAC PDU increases, and can efficiently realize data retransmission.

Therefore, the information processing apparatus 1000 contributes to efficiently retransmitting data in the LTE mobile communication system.

[First Embodiment]
The first embodiment will be described in more detail with reference to the drawings. The information processing device described above includes at least one of a mobile station UE and a radio base station eNB.

FIG. 5 is a block diagram showing an example of the configuration of the radio access network (communication system) according to the present embodiment. The eNB 300 shown in FIG. 5 includes an RLC sublayer 302 and a MAC sublayer 303 in place of the RLC sublayer 102 and the MAC sublayer 103 shown in FIG. Further, the UE 400 shown in FIG. 5 includes an RLC sublayer 402 and a MAC sublayer 403 in place of the RLC sublayer 202 and the MAC sublayer 203 shown in FIG. In the following description, the same components as the eNB 100 and UE 200 shown in FIG. 2 are designated by the same reference numerals, and the description thereof will be omitted.

FIG. 6 is a block diagram showing an example of the internal configuration of the RLC sublayers 302 and 402, and the MAC sublayers 303 and 403. The eNB 300 and the UE 400 execute the processing of TM, UM, and AM in the RLC sublayers 302 and 402, but in the following description, the processing of AM that performs retransmission control will be described. In the following description, the same components as the RLC sublayers 102 and 202 and the MAC sublayers 103 and 203 shown in FIG. 3 are designated by the same reference numerals, and the description thereof will be omitted. In the following description, the differences from the RLC sublayers 102 and 202 and the MAC sublayers 103 and 203 shown in FIG. 3 will be described in detail.

The difference between the RLC sublayer 302 of the eNB 300 shown in FIG. 6 and the RLC sublayer 102 of the eNB 100 shown in FIG. 6 is that the RLC sublayer 302 of the eNB 300 shown in FIG. It is a point to prepare. Further, the eNB 300 shown in FIG. 6 does not create and store (store) the transmission retransmission request 14 shown in FIG. 3 in the RLC sublayer 302.

The difference between the MAC sublayer 303 of the eNB 300 shown in FIG. 6 and the MAC sublayer 103 of the eNB 100 shown in FIG. 6 is that the MAC sublayer 303 of the eNB 300 shown in FIG. 6 has a MAC ID (Identifier) / SDU compatible storage unit 74. The point is that a retransmission request instruction unit 75 and a retransmission determination unit 76 are provided. Further, the MAC sublayer 303 of the eNB 300 shown in FIG. 6 includes a MAC PDU creating unit 24 in place of the MAC PDU creating unit 22 shown in FIG. The MAC PDU creation unit 24 is also referred to as a data unit creation unit.

The difference between the MAC sublayer 403 of the UE 400 shown in FIG. 6 and the MAC sublayer 203 of the UE 200 shown in FIG. 3 is that the MAC sublayer 403 of the UE 400 shown in FIG. 6 has a MAC ID / SDU compatible storage unit 34 and a retransmission request instruction. This is a point including a unit 35 and a retransmission determination unit 36. Further, the MAC sublayer 403 of the UE 400 shown in FIG. 6 includes a MAC PDU creating unit 64 in place of the MAC PDU creating unit 62 shown in FIG. The MAC ID / SDU compatible storage unit 34 is also referred to as a corresponding storage unit. Further, the retransmission request instruction unit 35 is also referred to as a retransmission instruction unit. The MAC PDU creation unit is also referred to as a data unit creation unit.

The difference between the RLC sublayer 402 of the UE 400 shown in FIG. 6 and the RLC sublayer 202 of the UE 200 shown in FIG. 6 is that the RLC sublayer 402 of the UE 400 shown in FIG. 6 replaces the transmission control unit 53 with the transmission control unit 57. It is a point to prepare. Further, the UE 400 shown in FIG. 6 does not create and store (store) the transmission retransmission request 54 shown in FIG. 3 in the RLC sublayer 402.

Hereinafter, each module shown in FIG. 6 will be described in detail.

The MAC PDU creation unit 24 of the eNB 300 multiplexes a plurality of (two or more) MAC SDUs received by the MAC SDU receiving unit to create a MAC PDU. Then, the MAC PDU creation unit 24 of the eNB 300 assigns a MAC ID (identification information) to the created MAC PDU. For example, the MAC PDU creation unit 24 may assign a numerical value incremented for each MAC PDU to the MAC PDU as a MAC ID. Then, the MAC PDU creation unit 24 stores the relationship between the MAC ID and the MAC SDU in the MAC ID / SDU compatible storage unit 74.

The MAC PDU transmission unit 23 transmits the MAC PDU with the MAC ID to the UE 400.

The MAC PDU receiving unit (data unit receiving unit) 31 of the UE 400 receives the MAC PDU transmitted from the eNB 300. Specifically, the MAC PDU receiving unit 31 receives a MAC PDU that is a MAC PDU to which identification information that identifies the MAC PDU is attached and in which one or more MAC PDUs are stored. Here, the MAC SDU is configured to include one or more RLC data PDUs and an RLC sequence number corresponding to each RLC data PDU.

The retransmission determination unit 36 determines whether or not to request the retransmission of the MAC PDU. Specifically, it detects the omission of the MAC ID assigned to the MAC PDU.

For example, the retransmission determination unit 36 may determine that there is no omission of the MAC ID when the MAC IDs assigned to the MAC PDUs are serial numbers. On the other hand, if the MAC ID assigned to the MAC PDU is discontinuous (for example, it is not a serial number) and the state in which the MAC ID is discontinuous continues for more than a predetermined time, it is determined to retransmit. The unit 36 may determine that the MAC ID is missing.

Alternatively, the UE 400 retroactively stores in the MAC sublayer 403 the largest MAC ID among the MAC IDs received within a predetermined time. Then, when the MAC PDU receiving unit 31 receives the MAC PDU, the retransmission determination unit 36 may compare the MAC ID assigned to the received MAC PDU with the maximum MAC ID to be stored. Then, when the difference between the MAC ID and the maximum stored MAC ID exceeds a predetermined value, the retransmission determination unit 36 may determine that the MAC ID is missing.

Then, when the retransmission determination unit 36 detects the missing MAC ID, it estimates the unreceived MAC ID (that is, the missing MAC ID) based on the MAC ID assigned to the received MAC PDU. Then, the retransmission determination unit 36 instructs the MAC PDU creation unit 64 to create a retransmission request using the estimated unreceived MAC ID. Specifically, the retransmission determination unit 36 instructs the MAC PDU creation unit 64 to create a retransmission request in which an unreceived MAC ID is specified (assigned).

The MAC PDU creation unit (data unit creation unit) 64 creates a retransmission request for the MAC PDU based on the instruction from the retransmission determination unit 36. Specifically, the MAC PDU creation unit 64 creates a MAC PDU with a MAC ID (identification information) that identifies the MAC PDU to be retransmitted as a retransmission request.

The MAC PDU transmission unit (data unit transmission unit) 63 transmits the retransmission request created by the MAC PDU creation unit 64 to the transmission source of the MAC PDU (that is, eNB 300).

When the MAC PDU receiving unit 71 of the eNB 300 receives the retransmission request from the UE 400, the MAC PDU receiving unit 71 transfers the received retransmission request to the retransmission request indicating unit 75.

The retransmission request instruction unit 75 refers to the MAC ID / SDU-compatible storage unit 74, and identifies the MAC SDU to be retransmitted (that is, the MAC data PDU to be retransmitted) based on the retransmission request. Specifically, the retransmission request instruction unit 75 uses the MAC ID (MAC ID specified in the retransmission request) assigned to the retransmission request as a search key from the MAC ID / SDU-compatible storage unit 74 to the MAC SDU to be retransmitted. (That is, the MAC data PDU to be resent) is searched.

Then, the retransmission request instruction unit 75 notifies the received retransmission request 82 of the RLC data PDU specified as the MAC SDU of the retransmission target to be retransmissiond.

The transmission control unit 17 of the eNB 300 retransmits the RLC data PDU to be retransmitted in accordance with the received retransmission request 82.

The operations of the MAC ID / SDU-compatible storage unit 34 and the retransmission request instruction unit 35 of the UE 400 are the same as the operations of the MAC ID / SDU-compatible storage unit 74 and the retransmission request instruction unit 75 of the eNB 300. Is omitted. Further, since the operation of the transmission control unit 57 of the UE 400 is the same as the operation of the transmission control unit 17 of the eNB 300, detailed description thereof will be omitted.

FIG. 7 is a diagram showing an example of a MAC PDU transmitted by the eNB 300 according to the present embodiment. For example, it is assumed that the UE 400 fails to receive the five RLC sequence numbers and the data corresponding to the RLC sequence numbers in the received MAC PDU. Here, when the UE 400 makes a retransmission request using the RLC sequence number, it is necessary for the UE 400 to transmit the retransmission request specifying the five RLC sequence numbers to the eNB 300. However, the UE 400 according to the present embodiment transmits a retransmission request with a MAC ID to the eNB 300. Therefore, the UE 400 according to the present embodiment can suppress the data size of the retransmission request to be transmitted.

From the above, the UE 400 according to the present embodiment contributes to efficiently retransmitting data in the LTE mobile communication system.

[Modification 1]
As a modification 1 of the eNB 300 according to the present embodiment, the eNB 300 may create a MAC PDU with a MAC ID (identification information) that identifies the MAC PDU as a retransmission request. Then, the eNB 300 may make a retransmission request to the UE 400.

Specifically, the MAC PDU receiving unit 81 of the eNB 300 is a MAC PDU to which identification information for identifying the MAC PDU is attached, and receives the MAC PDU in which one or more MAC PDUs are stored from the UE 400. You may.

Then, the retransmission determination unit 76 of the eNB 300 determines whether or not to request the retransmission of the MAC PDU. When requesting the retransmission of the MAC PDU, the MAC PDU creation unit 24 creates a MAC PDU with a MAC ID (identification information) that identifies the MAC PDU for which the retransmission request is made, as a retransmission request. The MAC PDU transmission unit 23 transmits the retransmission request created by the MAC PDU creation unit 24 to the transmission source of the MAC PDU (that is, UE 400).

From the above, similarly to the UE 400 according to the present embodiment, the eNB 300 contributes to efficiently retransmitting data in the LTE mobile communication system.

[Second Embodiment]
Next, the second embodiment will be described in detail.

In this embodiment, when the transmitting side device of the retransmission request makes the retransmission request, the retransmission request is made by using the RLC sequence number of some RLC Data PDUs. In the description of the present embodiment, the description of the portion overlapping with the above-described embodiment will be omitted. Further, in the description of the present embodiment, the same components as those of the above embodiment are designated by the same reference numerals, and the description thereof will be omitted. Further, in the description of the present embodiment, the description of the same effects as those of the above-described embodiment will be omitted.

The configuration of the radio access network according to this embodiment is as shown in FIG. Further, the internal configurations of the RLC sublayers 302 and 402 and the MAC sublayers 303 and 303 according to the present embodiment are as shown in FIG.

For example, in the UE 400, it is assumed that a part of the RLC data PDU has not been received. In that case, the RLC PDU transmission unit 63 according to the present embodiment sets the RLC sequence number of a part of the RLC data PDUs (MAC SDUs) multiplexed (stored) in the MAC PDU. A resend request may be made by notifying the eNB 300.

Specifically, the MAC PDU creation unit 64 creates a PDU to which an RLC sequence number specifying at least one RLC data PDU included in the MAC PDU to be a retransmission request is assigned as a retransmission request. Then, the MAC PDU transmission unit 63 transmits the retransmission request created by the MAC PDU creation unit 64 to the transmission source (that is, eNB) of the MAC PDU.

The retransmission request instruction unit 75 of the eNB 300 (the side that received the retransmission request) identifies the RLC data PDU of the RLC sequence number assigned to the retransmission request transmitted from the UE 400. Then, the transmission control unit 17 retransmits the RLC data PDU specified by the retransmission request instruction unit 75 to the UE 400. Specifically, the RLC PDU receiving unit 81 of the eNB 300 (the side that received the retransmission request) identifies the MAC PDU including the RLC data PDU of the notified RLC sequence number. Then, the MAC PDU transmission unit 23 of the eNB (reception request side) 300 retransmits all the RLC data PDUs included in the specified MAC PDU to the UE 400.

As described above, the UE 400 according to the present embodiment notifies the eNB 300 of the RLC sequence number of a part of the RLC data PDU and makes a retransmission request, so that the data size of the retransmission request can be suppressed. Therefore, the UE 400 according to the present embodiment contributes to efficiently retransmitting data.

[Modification 1]
As a modification 1 of the eNB 300 according to the present embodiment, the eNB 300 creates a MAC PDU to which an RLC sequence number specifying at least one RLC data PDU included in the MAC PDU to be retransmitted is assigned as a retransmission request. May be good. Then, the eNB 300 may make a retransmission request to the UE 400.

Specifically, the MAC PDU creation unit 24 of the eNB 300 creates a protocol data unit with an RLC sequence number that identifies at least one RLC data PDU included in the MAC PDU to be retransmitted as a retransmission request. Then, the MAC PDU transmission unit 23 transmits the retransmission request created by the MAC PDU creation unit 24 to the transmission source of the MAC PDU (that is, UE 400).

From the above, similarly to the UE 400 according to the present embodiment, the eNB 300 can suppress the data size of the retransmission request and contributes to efficiently realizing the data retransmission.

[Third Embodiment]
Next, the third embodiment will be described in detail.

In the present embodiment, when the transmitting side device of the retransmission request makes the retransmission request, the PDCP sequence number (PDCP (Packet Data Convergence Protocol) SN (Sequence Number)) of the PDCP PDU is used to make the retransmission request. In the description of the present embodiment, the description of the portion overlapping with the above-described embodiment will be omitted. Further, in the description of the present embodiment, the same components as those of the above embodiment are designated by the same reference numerals, and the description thereof will be omitted. Further, in the description of the present embodiment, the description of the same effects as those of the above-described embodiment will be omitted.

The configuration of the radio access network according to this embodiment is as shown in FIG. Further, the internal configurations of the RLC sublayers 302 and 402 and the MAC sublayers 303 and 303 according to the present embodiment are as shown in FIG.

The RLC data PDU according to the present embodiment is configured to include one or more PDCP PDUs and a PDCP sequence number that identifies each PDCP PDU.

Then, the UE 400 according to the present embodiment uses the PDCP sequence number of some PDCP PDUs included in the RLC data PDU instead of the RLC sequence number of the RLC data PDU. Specifically, the MAC PDU transmission unit 63 according to the present embodiment makes a retransmission request by notifying the eNB 300 of the PDCP sequence numbers of some PDCP PDUs included in the RLC data PDU.

More specifically, the MAC PDU creation unit 64 creates a MAC PDU included in the MAC PDU to be retransmitted request, to which a PDCP sequence number specifying at least one PDCP PDU is assigned, as a retransmission request. Then, the MAC PDU transmission unit 63 transmits the retransmission request created by the MAC PDU creation unit 64 to the transmission source (that is, eNB) of the MAC PDU.

The eNB 300 (the side receiving the retransmission request) identifies the MAC PDU including the PDCP PDU of the notified PDCP sequence number. Then, the eNB 300 retransmits all the RLC data PDUs included in the specified MAC PDU to the UE 300.

Specifically, the retransmission request instruction unit 75 identifies a MAC protocol data unit (MAC PDU) including a PDCP PDU corresponding to the PDCP sequence number attached to the retransmission request transmitted from the UE 400. Then, the retransmission request indicating unit 75 identifies the RLC data PDU included in the specified MAC PDU. Then, the transmission control unit 17 retransmits the RLC data PDU specified by the retransmission request instruction unit 75 to the UE 400.

As described above, the UE 400 according to the present embodiment notifies the eNB 300 of the PDCP sequence numbers of some PDCP PDUs included in the RLC data PDU and makes a retransmission request, so that the data size of the retransmission request is suppressed. can. Therefore, the UE 400 according to the present embodiment contributes to efficiently retransmitting data.

[Modification 1]
As a modification 1 of the eNB 300 according to the present embodiment, the eNB 300 creates a protocol data unit having a PDCP sequence number specifying at least one PDCP PDU included in the MAC PDU to be retransmitted as a retransmission request. Is also good. Then, the eNB 300 may make a retransmission request to the UE 400.

Specifically, the MAC PDU creation unit 24 of the eNB 300 creates a MAC PDU included in the MAC PDU to be retransmitted, to which a PDCP sequence number specifying at least one PDCP PDU is assigned, as a retransmission request. Then, the MAC PDU transmission unit 23 transmits the retransmission request created by the MAC PDU creation unit 24 to the transmission source of the MAC PDU (that is, UE 400).

From the above, similarly to the UE 400 according to the present embodiment, the eNB 300 can suppress the data size of the retransmission request and contributes to efficiently realizing the data retransmission.

Some or all of the above embodiments may also be described, but not limited to:

(Appendix 1) The information processing apparatus according to the first viewpoint is as described above.

(Appendix 2) The MAC service data unit is configured to include one or more RLC data protocol data units and an RLC sequence number corresponding to each RLC data protocol data unit, and the data unit creation unit is described. The information according to Appendix 1, wherein a protocol data unit to which the RLC sequence number specifying at least one RLC data protocol data unit included in the MAC protocol data unit to be retransmitted is assigned is created as the retransmission request. Processing device.

(Appendix 3) The RLC data protocol data unit is configured to include one or two or more PDCP protocol data units and a PDCP sequence number that identifies each PDCP protocol data unit, and the data unit creation unit retransmits the data unit. The information processing apparatus according to Appendix 2, wherein a protocol data unit to which the PDCP sequence number specifying at least one PDCP protocol data unit included in the requested MAC protocol data unit is assigned is created as the retransmission request. ..

(Appendix 4) This is the same as the communication system according to the second viewpoint.

(Appendix 5) The MAC service data unit is configured to include one or more RLC data protocol data units and an RLC sequence number corresponding to each RLC data protocol data unit, and the data unit creation unit is described. A protocol data unit to which the RLC sequence number specifying at least one RLC data protocol data unit included in the MAC protocol data unit to be retransmitted is assigned is created as the retransmission request, and the retransmission instruction unit receives the retransmission instruction unit. The RLC data protocol data unit of the RLC sequence number attached to the retransmission request transmitted from the second device is specified, and the transmission control unit uses the RLC data protocol data specified by the retransmission instruction unit. The communication system according to Appendix 4, wherein the unit is retransmitted to the second device.

(Appendix 6) The RLC data protocol data unit is configured to include one or more PDCP protocol data units and a PDCP sequence number that identifies each PDCP protocol data unit, and the data unit creation unit is responsible for the retransmission. A protocol data unit to which the PDCP sequence number specifying at least one PDCP protocol data unit included in the requested MAC protocol data unit is assigned is created as the retransmission request, and the retransmission instruction unit is the first. The MAC protocol data unit including the PDCP protocol data unit corresponding to the PDCP sequence number attached to the retransmission request transmitted from the device of 2 is specified, and the RLC included in the specified MAC protocol data unit. Data protocol The communication system according to Supplementary Note 5, wherein the transmission control unit retransmits the RLC data protocol data unit specified by the retransmission instruction unit to a second device.

(Appendix 7) The communication method according to the third viewpoint is as described above.

(Appendix 8) This is the same as the program related to the fourth viewpoint.

The disclosure of the above patented and non-patented documents shall be incorporated into this document by citation. Within the framework of the entire disclosure (including the scope of claims) of the present invention, the embodiments can be changed and adjusted based on the basic technical idea thereof. Further, various combinations or selections of various disclosure elements (including each element of each claim, each element of each embodiment, each element of each drawing, etc.) are possible within the framework of all disclosure of the present invention. be. That is, it goes without saying that the present invention includes all disclosure including claims, various modifications and modifications that can be made by those skilled in the art in accordance with the technical idea. In particular, with respect to the numerical range described in this document, any numerical value or small range included in the range should be construed as being specifically described even if not otherwise described.

11, 51 RLC SDU receiving unit 12, 52 Transmission buffer 13, 17, 53, 57 Transmission control unit 14, 54 Transmission retransmission request 15, 55 RLC PDU creation unit 16, 56 RLC PDU transmission unit 21, 61 MAC SDU receiving unit 22, 24, 62, 64 MAC PDU creation unit 23, 63 MAC PDU transmission unit 34, 74 MAC ID / SDU compatible storage unit 35, 75 Retransmission request instruction unit 36, 76, 1002 Retransmission judgment unit 41, 81 RLC PDU receiving unit 71, 31 MAC PDU receiver 72, 32 MAC SDU creator 73, 33 MAC SDU transmitter 82, 42 Received retransmission request 83, 43 Receive buffer 84, 44 RLC SDU creator 85, 45 RLC SDU transmitter 100, 300 eNB (Radio Base Station)
101, 201 PDCP sublayer 102, 202, 302, 402 RLC sublayer 103, 203, 303, 403 MAC sublayer 104, 204 Physical layer 105, 205 Radio unit 200, 400 UE (mobile station)
1000 Information processing device 1001 Data unit receiver 1003 Data unit creation unit 1004 Data unit transmission unit

Claims (6)

A data unit receiving unit that receives the MAC protocol data unit, which is a MAC protocol data unit to which identification information for identifying the MAC protocol data unit is assigned and in which one or more MAC service data units are stored.
A retransmission determination unit that determines whether or not to request retransmission of the MAC protocol data unit, and a retransmission determination unit.
The MAC service data unit is configured to include one or more RLC data protocol data units and an RLC sequence number corresponding to each RLC data protocol data unit.
A protocol data unit to which the RLC sequence number for specifying at least one RLC data protocol data unit included in the MAC protocol data unit for which the retransmission request target is specified is assigned . , The data unit creation unit created as a retransmission request,
A data unit transmission unit that transmits the retransmission request created by the data unit creation unit to the source of the MAC protocol data unit, and a data unit transmission unit.
Information processing device equipped with. A data unit receiving unit that receives the MAC protocol data unit, which is a MAC protocol data unit to which identification information for identifying the MAC protocol data unit is assigned and in which one or more MAC service data units are stored.
A retransmission determination unit that determines whether or not to request retransmission of the MAC protocol data unit, and a retransmission determination unit.
The MAC service data unit is configured to include one or more RLC data protocol data units and an RLC sequence number corresponding to each RLC data protocol data unit.
The RLC data protocol data unit is configured to include one or more PDCP protocol data units and a PDCP sequence number that identifies each PDCP protocol data unit.
A protocol data unit to which the PDCP sequence number for specifying at least one PDCP protocol data unit included in the MAC protocol data unit for which the retransmission request target is specified, which specifies the MAC protocol data unit for which the retransmission request is made, is assigned. The data unit creation unit created as a retransmission request,
A data unit transmission unit that transmits the retransmission request created by the data unit creation unit to the source of the MAC protocol data unit, and a data unit transmission unit.
Information processing device equipped with . A communication system including a first device and a second device.
The second device is
The MAC protocol data unit, which is a MAC protocol data unit to which identification information for identifying the MAC protocol data unit and stores one or more MAC service data units, is received from the first device. , Data unit receiver,
It has a retransmission determination unit that determines whether or not to request retransmission of the MAC protocol data unit.
The MAC service data unit is configured to include one or more RLC data protocol data units and an RLC sequence number corresponding to each RLC data protocol data unit.
A protocol data unit to which the RLC sequence number for specifying at least one RLC data protocol data unit included in the MAC protocol data unit for which the retransmission request target is specified is assigned . , The data unit creation unit created as a retransmission request,
A data unit transmission unit that transmits a retransmission request created by the data unit creation unit to the first device, and a data unit transmission unit.
Equipped with
The first device is
The MAC protocol data unit including the RLC sequence number attached to the retransmission request transmitted from the second device is specified, and the RLC data protocol data unit included in the specified MAC protocol data unit is specified. , Retransmission instruction part,
A transmission control unit that retransmits the RLC data protocol data unit specified by the retransmission instruction unit to the second device, and a transmission control unit.
To prepare
Communications system. A communication system including a first device and a second device.
The second device is
The MAC protocol data unit, which is a MAC protocol data unit to which identification information for identifying the MAC protocol data unit and stores one or more MAC service data units, is received from the first device. , Data unit receiver,
It has a retransmission determination unit that determines whether or not to request retransmission of the MAC protocol data unit.
The MAC service data unit is configured to include one or more RLC data protocol data units and an RLC sequence number corresponding to each RLC data protocol data unit.
The RLC data protocol data unit is configured to include one or more PDCP protocol data units and a PDCP sequence number that identifies each PDCP protocol data unit.
A protocol data unit to which the PDCP sequence number for specifying at least one PDCP protocol data unit included in the MAC protocol data unit for which the retransmission request target is specified, which specifies the MAC protocol data unit for which the retransmission request is made, is assigned. The data unit creation unit created as a retransmission request,
A data unit transmission unit that transmits a retransmission request created by the data unit creation unit to the first device, and a data unit transmission unit.
Equipped with
The first device is
A MAC protocol data unit including the PDCP protocol data unit corresponding to the PDCP sequence number attached to the retransmission request transmitted from the second device is specified and included in the specified MAC protocol data unit. , RLC data protocol , a retransmission indicator that identifies the data unit,
A transmission control unit that retransmits the RLC data protocol data unit specified by the retransmission instruction unit to the second device, and a transmission control unit.
A communication system. A process of receiving the MAC protocol data unit, which is a MAC protocol data unit to which identification information for specifying the MAC protocol data unit is stored and in which one or more MAC service data units are stored.
The step of determining whether or not to request the retransmission of the MAC protocol data unit, and
The MAC service data unit is configured to include one or more RLC data protocol data units and an RLC sequence number corresponding to each RLC data protocol data unit, and identifies the MAC protocol data unit to be retransmitted. A step of creating a protocol data unit to which the RLC sequence number specifying at least one RLC data protocol data unit included in the MAC protocol data unit of the retransmission request target is assigned as a retransmission request.
A step of transmitting the created retransmission request to the source of the MAC protocol data unit, and
Communication methods, including. A process of receiving the MAC protocol data unit, which is a MAC protocol data unit to which identification information for specifying the MAC protocol data unit is stored and in which one or more MAC service data units are stored.
The process of determining whether to request the retransmission of the MAC protocol data unit and
The MAC service data unit is configured to include one or more RLC data protocol data units and an RLC sequence number corresponding to each RLC data protocol data unit, and identifies the MAC protocol data unit to be retransmitted. A process of creating a protocol data unit to which the RLC sequence number specifying at least one RLC data protocol data unit included in the MAC protocol data unit of the retransmission request target is assigned as a retransmission request.
A process of transmitting the created retransmission request to the source of the MAC protocol data unit, and
Is a program that causes the computer that controls the information processing device to execute.

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