BASE STATION AND DATA TRANSFER METHOD

Abstract

A base station in a master cell group configured to establish a bearer to a mobile station together with a base station in a secondary cell group for communication includes a data transfer instruction unit configured to transmit to the base station in the secondary cell group an instruction on whether to transfer downlink data in the base station in the secondary cell group to the base station in the master cell group upon deletion or modification of the secondary cell group or upon deletion of the bearer in the secondary cell group; a reception unit configured to receive the downlink data transferred from the base station in the secondary cell group according to the instruction; and a transmission unit configured to transmit the received downlink data to the mobile station.

Claims

1. A base station in a master cell group configured to establish a bearer to a mobile station together with a base station in a secondary cell group for communication, comprising: a data transfer instruction unit configured to transmit to the base station in the secondary cell group an instruction on whether to transfer downlink data in the base station in the secondary cell group to the base station in the master cell group upon deletion or modification of the secondary cell group or upon deletion of the bearer in the secondary cell group; a reception unit configured to receive the downlink data transferred from the base station in the secondary cell group according to the instruction; and a transmission unit configured to transmit the received downlink data to the mobile station.

2. The base station as claimed in claim 1, wherein the data transfer instruction unit transmits the instruction to the base station in the secondary cell group upon the deletion or the modification of the secondary cell group or upon the deletion of the bearer in the secondary cell group.

3. The base station as claimed in claim 1, wherein the data transfer instruction unit transmits the instruction to the base station in the secondary cell group upon addition of the secondary cell group.

4. The base station as claimed in claim 1, wherein when the downlink data are distributed by the base station in the master cell group to the base station in the secondary cell group, the data transfer instruction unit determines whether to transfer the downlink data in the base station in the secondary cell group to the base station in the master cell group based on a buffer size of the base station in the master cell group and transmits the instruction to the base station in the secondary cell group.

5. The base station as claimed in claim 1, wherein when the downlink data are distributed by a serving gateway to the base station in the secondary cell group, the data transfer instruction unit transmits to the base station in the secondary cell group an instruction indicating that the downlink data in the base station in the secondary cell group should be transferred to the base station in the master cell group.

6. The base station as claimed in claim 1, wherein when a plurality of bearers are established in the base station in the secondary cell group, the data transfer instruction unit provides the instruction for each of the plurality of bearers.

7. A base station in a secondary cell group configured to establish a bearer to a mobile station together with a base station in a master cell group for communication, comprising: a reception unit configured to receive from the base station in the master cell group an instruction on whether to transfer downlink data in the base station in the secondary cell group to the base station in the master cell group upon deletion or modification of the secondary cell group or upon deletion of the bearer in the secondary cell group; and a data transfer unit configured to transfer the downlink data to the base station in the master cell group according to the instruction upon the deletion or the modification of the secondary cell group or upon the deletion of the bearer in the secondary cell group.

8. The base station as claimed in claim 7, wherein the data transfer unit transfers to the base station in the master cell group downlink data which are stored in a buffer of the base station in the secondary cell group and planned to be transmitted to the mobile station and downlink data for which an acknowledgement is not received from the mobile station.

9. A data transfer method in a base station in a master cell group configured to establish a bearer to a mobile station together with a base station in a secondary cell group for communication, comprising the steps of: transmitting to the base station in the secondary cell group an instruction on whether to transfer downlink data in the base station in the secondary cell group to the base station in the master cell group upon deletion or modification of the secondary cell group or upon deletion of the bearer in the secondary cell group; receiving the downlink data transferred from the base station in the secondary cell group according to the instruction; and transmitting the received downlink data to the mobile station.

10. A data transfer method in a base station in a secondary cell group configured to establish a bearer to a mobile station together with a base station in a master cell group for communication, comprising the steps of: receiving from the base station in the master cell group an instruction on whether to transfer downlink data in the base station in the secondary cell group to the base station in the master cell group upon deletion or modification of the secondary cell group or upon deletion of the bearer in the secondary cell group; and transferring the downlink data to the base station in the master cell group according to the instruction upon the deletion or the modification of the secondary cell group or upon the deletion of the bearer in the secondary cell group.

11. The base station as claimed in claim 2, wherein when the downlink data are distributed by the base station in the master cell group to the base station in the secondary cell group, the data transfer instruction unit determines whether to transfer the downlink data in the base station in the secondary cell group to the base station in the master cell group based on a buffer size of the base station in the master cell group and transmits the instruction to the base station in the secondary cell group.

12. The base station as claimed in claim 3, wherein when the downlink data are distributed by the base station in the master cell group to the base station in the secondary cell group, the data transfer instruction unit determines whether to transfer the downlink data in the base station in the secondary cell group to the base station in the master cell group based on a buffer size of the base station in the master cell group and transmits the instruction to the base station in the secondary cell group.

13. The base station as claimed in claim 2, wherein when the downlink data are distributed by a serving gateway to the base station in the secondary cell group, the data transfer instruction unit transmits to the base station in the secondary cell group an instruction indicating that the downlink data in the base station in the secondary cell group should be transferred to the base station in the master cell group.

14. The base station as claimed in claim 3, wherein when the downlink data are distributed by a serving gateway to the base station in the secondary cell group, the data transfer instruction unit transmits to the base station in the secondary cell group an instruction indicating that the downlink data in the base station in the secondary cell group should be transferred to the base station in the master cell group.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] FIG. 1A shows bearer architecture (MeNB anchor) in Dual Connectivity.

[0026] FIG. 1B shows bearer architecture (S-GW anchor) in Dual Connectivity.

[0027] FIG. 2 shows a block diagram of a base station (MeNB) in accordance with an embodiment of the present invention.

[0028] FIG. 3 shows a block diagram of a base station (SeNB) in accordance with an embodiment of the present invention.

[0029] FIG. 4 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an MeNB determines to modify a bearer).

[0030] FIG. 5 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an SCG is released).

[0031] FIG. 6 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an SeNB determines to modify a bearer).

[0032] FIG. 7 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an instruction on whether data transfer is needed is provided upon addition of a cell as a collective notification).

[0033] FIG. 8 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an MeNB determines to modify a bearer after a collective notification).

[0034] FIG. 9 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an SCG is released after a collective notification).

[0035] FIG. 10 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an SeNB determines to modify a bearer after a collective notification).

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0036] In an embodiment of the present invention, a type of CA (carrier aggregation) where a mobile station (UE) performs communication using cell groups belonging to different base stations is described. This type of CA is referred to as “Dual Connectivity”.

[0037] As described with reference to FIGS. 1A and 1B, a mobile station (UE) can perform communication using a bearer (Split Bearer or SCG Bearer) established via two base stations (MeNB and SeNB) in Dual Connectivity. In an embodiment of the present invention, when the Split Bearer or the SCG Bearer is reconfigured as an MCG Bearer after the Split Bearer or the SCG Bearer is established in Dual Connectivity, in other words, when an SCG is deleted or modified or when the bearer in the SCG is deleted, a requirement for not losing data on the bearer can be met by transferring downlink data in the SeNB to the MeNB (by data transfer).

[0038] However, the downlink data in the SeNB may be stored in a buffer of the MeNB depending on bearer architecture or implementation of the MeNB, and thus data transfer is not always needed. In an embodiment of the present invention, the MeNB provides an instruction on whether data transfer is needed to the SeNB to achieve efficient data transfer.

[0039] Specific configurations of the base stations (MeNB and SeNB) will be described below.

[0040] <Configuration of a Base Station (MeNB)>

[0041] FIG. 2 shows a block diagram of a base station (MeNB) in accordance with an embodiment of the present invention. The MeNB 10 includes a UL signal reception 101, a DL signal transmission unit 103, a secondary cell group configuration unit 105, a data transfer instruction unit 107, a DL data buffer unit 109, and an inter-base-station interface unit 111.

[0042] The UL signal reception unit 101 receives uplink signals from a UE. The UL signal reception unit 101 receives an RRC (Radio Resource Control) message in addition to data signals from the UE. For example, the UL signal reception unit 101 receives a cell quality report (measurement report), a connection establishment complete notification (RRC connection reconfiguration complete), and so on from the UE.

[0043] The DL signal transmission unit 103 transmits downlink signals to the UE. The DL signal transmission unit 103 transmits an RRC message in addition to data signals to the UE. For example, the DL signal transmission unit 103 transmits a connection establishment notification (RRC connection reconfiguration), and so on.

[0044] The secondary cell group configuration unit 105 adds a secondary cell group (SCG) based on the cell quality report received from the UE. When quality of a configured SCG is degraded, the secondary cell group configuration unit 105 instructs an SeNB to modify a bearer established in the SCG or release (modify or delete) the SCG. The addition or the release of the SCG or the modification of the bearer is provided to the UE by means of a connection establishment notification (RRC connection reconfiguration).

[0045] When a Split Bearer or an SCG Bearer is reconfigured as an MCG Bearer after the Split Bearer or the SCG Bearer is established, in other words, when an SCG is deleted or modified or when the bearer in the SCG is deleted, the data transfer instruction unit 107 transmits to the SeNB an instruction on whether to transfer downlink data in the SeNB to the MeNB. When a plurality of bearers are established in the SeNB, the instruction on whether to transfer downlink data in the SeNB to the MeNB may be provided for each bearer. In addition, the instruction may be transmitted as needed. In other words, when data transfer is not needed, the MeNB may not explicitly transmit an instruction indicating that it is not necessary to transfer the downlink data to the MeNB. In addition, the instruction may be transmitted each time the SCG is deleted or modified or each time the bearer in the SCG is deleted (individual notification) or when an SCG is added (collective notification). If the instruction is provided when an SCG is added (collective notification), the instruction may not be provided each time the SCG is deleted or modified or each time the bearer in the SCG is deleted.

[0046] The DL data buffer unit 109 is a buffer to store downlink data to be transmitted to the UE.

[0047] For example, when a Split Bearer is established according to MeNB anchor, the DL data buffer unit 109 in the MeNB may store data distributed to the SeNB. When the Split Bearer is reconfigured as an MCG Bearer, the data transfer instruction unit 107 may determine whether to transfer data based on a buffer size of the DL data buffer unit 109. For example, when the buffer size of the DL data buffer unit 109 is larger than a predetermined threshold, the data transfer instruction unit 107 may determine that data transfer is not needed. On the other hand, when the buffer size of the DL data buffer unit 109 is smaller than or equal to the predetermined threshold, the data transfer instruction unit 107 may determine that data transfer is needed.

[0048] For example, when an SCG Bearer is established according to S-GW anchor, it is assumed that the DL data buffer unit 109 in the MeNB does not store downlink data for the SeNB. When the SCB bearer is reconfigured as an MCG Bearer, the data transfer instruction unit 107 may determine that data transfer is needed.

[0049] The inter-base-station interface unit 111 is a transmission and reception interface for communicating with an SeNB. The interface between the MeNB and the SeNB is referred to as an “X2 interface”. The inter-base-station interface unit 111 notifies the SeNB of the addition or release of the SCG or the modification of the bearer determined by the secondary cell group configuration unit 105 and receives its response. In addition, the inter-base-station interface unit 111 receives modification of the bearer requested by the SeNB and transmits its response. Furthermore, the inter-base-station interface unit 111 receives downlink data transferred from the SeNB. The downlink data transferred from the SeNB is scheduled by the MeNB and transmitted via the DL signal transmission unit 103 to the UE.

[0050] <Configuration of a Base Station (SeNB)>

[0051] FIG. 3 shows a block diagram of a base station (SeNB) in accordance with an embodiment of the present invention. The SeNB 20 includes a UL signal reception 201, a DL signal transmission unit 203, a secondary cell group configuration unit 205, a data transfer unit 207, a DL data buffer unit 209, and an inter-base-station interface unit 211.

[0052] The UL signal reception unit 201 receives uplink signals from a UE. Since the SeNB cannot transmit and receive an RRC message, the UL signal reception unit 201 mainly receives data signals from the UE.

[0053] The DL signal transmission unit 203 transmits downlink signals to the UE. Since the SeNB cannot transmit and receive an RRC message, the DL signal transmission unit 203 mainly transmits data signals to the UE.

[0054] The secondary cell group configuration unit 205 configures an SCG according to an indication from an MeNB to add the SCG. In addition, the secondary cell group configuration unit 205 modifies the configuration of the SCG according to an indication from MeNB to modify a bearer or to release the SCG (to delete or modify the SCG). Furthermore, the secondary cell group configuration unit 205 may request the MeNB to modify a bearer established in the SCG due to a workload of the SeNB or the like.

[0055] The data transfer unit 207 transfers downlink data to the MeNB according to an instruction for data transfer received from the MeNB. In other words, when an instruction indicating that the downlink data in the SeNB should be transferred to the MeNB upon deletion or modification of the SCG or upon deletion of the bearer in the SCG is received, the data transfer unit 207 transfers the downlink data to the MeNB. On the other hand, when an instruction indicating that the downlink data in the SeNB should be transferred to the MeNB upon deletion or modification of the SCG or upon deletion of the bearer in the SCG is not received, the data transfer unit 207 does not transfer the downlink data to the MeNB. Alternatively, when an instruction indicating that it is not necessary to transfer the downlink data in the SeNB to MeNB upon deletion or modification of the SCG or upon deletion of the bearer in the SCG is received, the data transfer unit 207 does not transfer the downlink data to the MeNB. The downlink data may include downlink data which are stored in the DL data buffer unit 209 and planned to be transmitted to the UE and downlink data for which an acknowledgement (ACK) is not received from the UE.

[0056] The DL data buffer unit 209 is a buffer to store downlink data to be transmitted to the UE.

[0057] The inter-base-station interface unit 211 is a transmission and reception interface for communicating with an MeNB. The inter-base-station interface unit 211 receives an indication of addition or release of the SCG or modification of the bearer determined by the MeNB and transmits its response. In addition, the inter-base-station interface unit 211 requests the MeNB to modify the bearer and receives its response. Furthermore, the inter-base-station interface unit 211 transfers downlink data to the MeNB when data transfer is needed upon deletion or modification of the SCG or upon deletion of the bearer in the SCG.

[0058] <Sequence of a Data Transfer Method (Individual Notification)>

[0059] In the following, there is a description of a procedure to transmit an instruction on whether to transfer downlink data in the SeNB to the MeNB each time an SCG is deleted or modified or each time a bearer in the SCG is deleted (individual notification).

[0060] FIG. 4 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an MeNB determines to modify a bearer).

[0061] It is assumed that an SCG is configured for a UE and a bearer (Split Bearer or SCG Bearer) is established in both the MCG and the SCG.

[0062] The MeNB periodically receives a cell quality report (measurement report) from the UE (S101). For example, when cell quality does not satisfy QoS of the bearer, the MeNB determines that the Split Bearer or the SCG Bearer is to be reconfigured as an MCG Bearer (S103). The MeNB transmits an SeNB (SCG) modification request to the SeNB to delete the Split Bearer or the SCG Bearer (S105). The SeNB (SCG) modification request includes a bearer modification indication that the Split Bearer or the SCG Bearer is to be deleted and an instruction on whether data transfer is needed.

[0063] When the SeNB receives the SeNB (SCG) modification request and identifies that data transfer is needed, the SeNB determines to transfer downlink data to the MeNB (S107). When the SeNB receives the SeNB (SCG) modification request, the SeNB stops scheduling and also stops downlink data transmission. Then, the SeNB transmits a response to the SeNB (SCG) modification request called an SeNB (SCG) modification request ACK to the MeNB (S109), and transmits the downlink data (U-plane data) to the MeNB (S111). For example, the downlink data transferred to the MeNB includes downlink data stored in the buffer after the SeNB stops scheduling (S107) and downlink data for which acknowledgement (ACK) is not received from the UE.

[0064] The MeNB provides the modification of the bearer by means of an RRC connection reconfiguration (S113) and receives its response called an RRC connection reconfiguration complete (S115). The MeNB notifies the SeNB that the modification of the bearer is complete (S117) and transmits the downlink data transferred from the SeNB to the UE (S119).

[0065] FIG. 5 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an SCG is released).

[0066] It is assumed that an SCG is configured for a UE and a bearer (Split Bearer or SCG Bearer) is established in both the MCG and the SCG.

[0067] The MeNB periodically receives a cell quality report (measurement report) from the UE (S201). For example, when cell quality is degraded, the MeNB determines that SCG is to be released (S203). The MeNB transmits an SeNB (SCG) release request to the SeNB to release the SCG (S205). The SeNB (SCG) release request includes an instruction on whether data transfer is needed.

[0068] When the SeNB receives the SeNB (SCG) release request and identifies that data transfer is needed, the SeNB determines to transfer downlink data to the MeNB (S207). When the SeNB receives the SeNB (SCG) release request, the SeNB stops scheduling and also stops downlink data transmission. Then, the SeNB transmits the downlink data (U-plane data) to the MeNB (S211). For example, the downlink data transferred to the MeNB includes downlink data stored in the buffer after the SeNB stops scheduling (S207) and downlink data for which acknowledgement (ACK) is not received from the UE.

[0069] The following steps (S213-S219) are performed in the same manner as the corresponding steps (S113-S119) shown in FIG. 4.

[0070] While FIG. 5 shows the case where an SCG is deleted, a similar procedure of data transfer can be applied to the case where an SCG is modified. Specifically, when an SeNB is switched to another SeNB, an instruction on whether data transfer is needed is provided to the SeNB before the switch by means of an SeNB (SCG) release request. When the SeNB before the switch is the same as the SeNB after the switch even if the SCG is modified, the SeNB determines that data transfer is not needed.

[0071] FIG. 6 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an SeNB determines to modify a bearer).

[0072] It is assumed that an SCG is configured for a UE and a bearer (Split Bearer or SCG Bearer) is established in both the MCG and the SCG.

[0073] When a workload of the SeNB exceeds a predetermined threshold, the SeNB determines to reconfigure the Split Bearer or the SCG Bearer as an MCG Bearer (S303). The SeNB transmits an SeNB (SCG) modification request to the MeNB to delete the bearer (S305). The MeNB transmits its response called an SeNB (SCG) modification request ACK to the SeNB (S306). The SeNB (SCG) modification request ACK includes an instruction on whether data transfer is needed.

[0074] When the SeNB receives the SeNB (SCG) modification request ACK and identifies that data transfer is needed, the SeNB determines to transfer downlink data to the MeNB (S307). When the SeNB receives the SeNB (SCG) modification request ACK, the SeNB stops scheduling and also stops downlink data transmission. Then, the SeNB transmits the downlink data (U-plane data) to the MeNB (S311). For example, the downlink data transferred to the MeNB includes downlink data stored in the buffer after the SeNB stops scheduling (S307) and downlink data for which acknowledgement (ACK) is not received from the UE.

[0075] The following steps (S313-S319) are performed in the same manner as the corresponding steps (S113-S119) shown in FIG. 4.

[0076] <Sequence of a Data Transfer Method (Collective Notification)>

[0077] In the following, there is a description of a procedure to transmit an instruction on whether to transfer downlink data in the SeNB to the MeNB each time an SCG is added (collective notification). In this case, the instruction may not be provided each time the SCG is deleted or modified or each time a bearer in the SCG is deleted.

[0078] FIG. 7 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an instruction on whether data transfer is needed is provided upon addition of a cell as a collective notification).

[0079] It is assumed that a bearer (MCG Bearer) is established in an MCG and an SCG is not added.

[0080] The MeNB periodically receives a cell quality report (measurement report) from the UE (S401). When the MeNB determines that an SCG is to be added based on the cell quality report, the MeNB transmits an SeNB (SCG) addition request to the SeNB to add an SCG (S405). The SeNB (SCG) addition request includes an instruction on whether data transfer is needed. The instruction on whether data transfer is needed indicates whether downlink data in the SeNB should be transferred to the MeNB when the SCG is deleted or modified or when a bearer established in the SCG is deleted and reconfigured as an MCG Bearer.

[0081] When the SeNB receives the SeNB (SCG) addition request and receives whether data transfer is needed, the SeNB transmits its response called an SeNB (SCG) addition request ACK to the MeNB (S409).

[0082] The MeNB notifies the UE that an SCG is to be added by means of an RRC connection reconfiguration (S413) and receives its response called an RRC connection reconfiguration complete (S415). The MeNB notifies the SeNB that the addition of the SCG is complete (S417). As a result, the SCG is configured and the MCG Bearer is reconfigured as a Split Bearer or an SCG Bearer.

[0083] Next, procedures of data transfer in the case of a collective notification are described.

[0084] FIG. 8 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an MeNB determines to modify a bearer after a collective notification).

[0085] The procedure to modify the bearer according to the determination by the MeNB after a collective notification is the same as the procedure shown in FIG. 4, except that the SeNB (SCG) modification request in step S505 does not include an instruction on whether data transfer is needed. As described with reference to FIG. 7, the instruction on whether data transfer is needed is provided upon the addition of the SCG, the SeNB determines whether to transfer data according to the provided instruction (S507).

[0086] FIG. 9 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an SCG is released after a collective notification).

[0087] The procedure to release the SCG after a collective notification is the same as the procedure shown in FIG. 5, except that the SeNB (SCG) release request in step S605 does not include an instruction on whether data transfer is needed. As described with reference to FIG. 7, the instruction on whether data transfer is needed is provided upon the addition of the SCG, the SeNB determines whether to transfer data according to the provided instruction (S607).

[0088] It should be noted that a similar procedure of data transfer as shown in FIG. 9 can be applied to the case where an SCG is modified. Specifically, when an SeNB is switched to another SeNB, the SeNB before the switch determines whether to transfer data according to the instruction on whether data transfer is needed, which is provided upon the addition of the SCG. When the SeNB before the switch is the same as the SeNB after the switch even if the SCG is modified, the SeNB determines that data transfer is not needed even if the collective notification indicates that data transfer is needed.

[0089] FIG. 10 shows a sequence diagram of a data transfer method in an embodiment of the present invention (in the case where an SeNB determines to modify a bearer after a collective notification).

[0090] The procedure to modify the bearer according to the determination by the SeNB after a collective notification is the same as the procedure shown in FIG. 6, except that the SeNB (SCG) modification request in step S706 does not include an instruction on whether data transfer is needed. As described with reference to FIG. 7, the instruction on whether data transfer is needed is provided upon the addition of the SCG, the SeNB determines whether to transfer data according to the provided instruction (S707).

[0091] While the description of the collective notification and the description of the individual notification are separately provided, the collective notification and the individual notification may be combined. For example, when the individual notification is provided after the collective notification, the individual notification may be prioritized. Alternatively, when the collective notification is provided after the individual notification, the collective notification may be prioritized.

[0092] <Effects of an Embodiment of the Present Invention>

[0093] According to an embodiment of the present invention, it is possible to meet a requirement for not losing data on a Split Bearer or an SCG Bearer, when the Split Bearer or the SCG Bearer is reconfigured as an MCG Bearer in Dual Connectivity. In addition, since an MeNB determines whether data transfer is needed depending on bearer architecture or implementation of the MeNB, efficient data transfer can be achieved.

[0094] By instructing whether data transfer is needed each time a bearer in an SCG is deleted (individual notification), different kinds of processing can be implemented depending on the bearer. When a plurality of bearers are established, it is possible to implement different kinds of processing for each of the bearers. For example, the MeNB may instruct that reliable data transfer can be implemented for a bearer with a higher QoS requirement.

[0095] On the other hand, by instructing whether data transfer is needed upon addition of an SCG (collective notification), the amount of data to be exchanged between the base stations can be reduced.

[0096] For convenience of explanation, the base station according to the embodiments of the present invention has been described with reference to functional block diagrams, but the base station may be implemented in hardware, software, or combinations thereof. In addition, two or more functional elements may be combined as appropriate. The method according to the embodiments of the present invention may be carried out in a different order from the order shown in the embodiments.

[0097] While the approaches are described above to meet a requirement for not losing data on a Split Bearer or an SCG Bearer, when the Split Bearer or the SCG Bearer is reconfigured as an MCG Bearer in Dual Connectivity, the present invention is not limited to the these embodiments, and variations, modifications, alterations, and substitutions can be made by those skilled in the art without deviating from the spirit of the present invention.

[0098] The present international application is based on and claims the benefit of priority of Japanese Patent Application No. 2014-179618 filed on Sep. 3, 2014, the entire contents of which are hereby incorporated by reference.

DESCRIPTION OF NOTATIONS

[0099] 10 base station (MeNB)

[0100] 101 UL signal reception

[0101] 103 DL signal transmission unit

[0102] 105 secondary cell group configuration unit

[0103] 107 data transfer instruction unit

[0104] 109 DL data buffer unit

[0105] 111 inter-base-station interface unit

[0106] 20 base station (SeNB)

[0107] 201 UL signal reception

[0108] 203 DL signal transmission unit

[0109] 205 secondary cell group configuration unit

[0110] 207 data transfer unit

[0111] 209 DL data buffer unit

[0112] 211 inter-base-station interface unit