JP2019068200A - Wireless communication system and handover method - Google Patents

Abstract

To reduce a control plane traffic load between base stations in handover.SOLUTION: A management device acquires a measurement report from a terminal device via a handover source base station device, determines the handover of the terminal device on the basis of the measurement report, controls permission of the handover of the terminal device on the basis of information on a wireless communication resource of the handover destination base station device of the terminal device for which the handover has been determined, issues a handover instruction to the terminal device for which the handover has been permitted via the handover source base station device, and issues a handover instruction to the handover destination base station device. The handover source base station device prepares for the handover of the terminal device on the basis of the handover instruction from the management device to the terminal device. The handover destination base station device prepares for the handover of the terminal device on the basis of the handover instruction from the management device.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a wireless communication system and a handover method.

  For example, Non-Patent Document 1 describes a signaling protocol of handover in a wireless communication system called an LTE (Long Term Evolution) system. FIG. 6 is a sequence chart showing an example of a conventional handover method in the LTE system. In FIG. 6, a signal in which a user plane (U-plane) is not described is a control plane (C-plane). Hereinafter, the conventional handover method will be described with reference to FIG.

  In FIG. 6, the user plane packet of the terminal equipment (user equipment: UE) is connected to the serving gateway (Serving Gateway: S-GW) via the handover source base station apparatus (Source eNodeB) to which the UE is connected. Between the two. The base station apparatus at the handover source to which the UE is connected transmits measurement control information (Measurement Configuration) to the UE (step S101), performs uplink allocation (UL allocation) to the UE (step S101). S102), a measurement report (Measurement Report) is received from the UE (step S103). Next, the base station apparatus of the handover source makes a handover decision (Handover Decision) of the UE based on the measurement report received from the UE (step S104). Next, the handover source base station device issues a handover request (Handover Request) to the handover destination base station device (Target eNodeB) of the UE that has determined the handover (Step S105 a). Next, the handover destination base station device performs admission control of the handover request (Admission Control) (step S105 b), and returns the control result to the handover source base station device (Handover Request ACK) (step S105 c). Next, when the response from the handover destination base station apparatus is permission, the base station apparatus at handover source allocates downlink (Downlink) to the UE (DL Allocation) (step S106). A handover instruction (Handover Command) is issued to the UE (step S107). Next, the UE detaches from the handover source base station apparatus and performs handover to the handover destination base station apparatus (step S108). The handover source base station apparatus performs packet handover processing to the handover destination base station apparatus for the uplink (step S109). Next, the handover source base station apparatus transmits "SN (sequence number) Status Transfer" to the handover destination base station apparatus (step S110). Next, uplink data transfer in the user plane is performed between the handover source base station device and the handover destination base station device. The handover destination base station device performs packet handover processing from the handover source base station device on the uplink (step S111).

  The UE establishes synchronization (Synchronization) with the handover destination base station apparatus (step S112). Next, the handover destination base station apparatus performs uplink allocation (UL Allocation) and timing adjustment (TA (Timing Advance)) for the UE (step S113). Next, the UE transmits a handover complete (Handover Confirm) to the handover destination base station apparatus (step S114).

  Next, the handover destination base station apparatus transmits a path switch request (Path Switch Request) to an MME (Mobility Management Entity) (step S115). In response to the path switching request, the MME transmits a user plane update request (User Plane Update Request) to the S-GW (step S116). The S-GW performs downlink path switching in response to the user plane update request (step S117). Next, the S-GW returns a User Plane Update Reply (User Plane Update Reply) to the MME (step S118). Next, the MME returns a path switch request acknowledgment (Path Switch Request ACK) to the handover destination base station apparatus (step S119). Next, the handover destination base station device transmits a resource release (Release Resource) to the handover source base station device (step S120). Next, the handover source base station device performs packet handover processing to the handover destination base station device for downlink (step S121). Next, downlink data transfer in the user plane is performed to the end marker (End Marker) between the handover source base station apparatus and the handover destination base station apparatus. Next, the handover source base station releases resources (step S122). Thereafter, the user plane packet of the UE is transmitted to and received from the S-GW via the handover destination base station apparatus to which the UE is connected.

Toktam Mahmoodiy, Srini Seetharaman, "On Using a SDN-based Control Plane in 5G Mobile Networks", Wireless World Research Forum, vol. 32, May 2014.

  In the above-described conventional handover method, one problem is to reduce the traffic load of the control plane between base stations in the handover.

  The present invention has been made in consideration of such circumstances, and an object thereof is to reduce the control plane traffic load between base stations in handover.

(1) One aspect of the present invention relates to a plurality of base station apparatuses, a terminal apparatus performing wireless communication with the base station apparatus, and a management apparatus performing control plane communication with the base station apparatus A management report acquisition unit configured to acquire a measurement report of wireless communication quality between the terminal apparatus and the base station apparatus from the terminal apparatus via the handover source base station apparatus; A handover determination unit that determines handover of the terminal based on a measurement report, and permission control of handover of the terminal based on information of a wireless communication resource of a base station that is the handover destination of the terminal that has determined the handover And a handover instruction to the terminal device which is the handover permission, via the base station apparatus at the handover source, and And a handover instruction unit for performing a handover instruction to a base station device of an over destination, wherein the handover source base station device prepares for the handover of the terminal device based on the handover instruction from the management device to the terminal device. The base station control unit for performing handover is a radio communication system including a base station control unit for preparing for handover of the terminal apparatus based on a handover instruction from the management apparatus.
(2) In one aspect of the present invention, in the wireless communication system according to (1), the base station control unit of the base station apparatus at the handover source transfers the measurement report received from the terminal apparatus to the management apparatus. The wireless communication system performs downlink allocation to the terminal device after a predetermined waiting time elapses from the above.

(3) One aspect of the present invention includes a plurality of base station apparatuses, a terminal apparatus performing wireless communication with the base station apparatus, and a management apparatus performing control plane communication with the base station apparatus. The management apparatus acquires from the terminal apparatus a measurement report of the quality of wireless communication between the terminal apparatus and the base station apparatus via the base station apparatus at the handover source. Performing a measurement report acquisition step, a handover determining step in which the management device determines the handover of the terminal device based on the measurement report, and a handover destination base station of the terminal device whose handover is determined by the management device A permission control step of performing permission control of the handover of the terminal device based on information of a wireless communication resource of the device; A handover instruction step of issuing a handover instruction to the terminal device which is the permission of the server via the handover source base station device and instructing the handover destination base station device to perform a handover instruction, and the handover source base station device A handover source base station control step of preparing for handover of the terminal device based on the handover instruction to the terminal device; and the base station device at the handover destination, the terminal based on the handover instruction from the management device And a handover destination base station control step of preparing for handover of the device.
(4) One aspect of the present invention is the handover method according to the above (3), wherein the handover source base station apparatus transfers a measurement report received from the terminal apparatus to the management apparatus before a predetermined waiting time is reached. A downlink assignment step of performing downlink assignment to the terminal device after the elapse of time.

  According to the present invention, it is possible to reduce the traffic load on the control plane between base stations in handover.

It is a figure which shows the structural example of the radio | wireless communications system which concerns on one Embodiment. It is a block diagram showing an example of composition of terminal unit 1 concerning one embodiment. It is a block diagram which shows the structural example of the base station apparatus 3 which concerns on one Embodiment. It is a block diagram showing an example of composition of controlling device 5 concerning one embodiment. It is a sequence chart which shows an example of the handover method concerning one embodiment. It is a sequence chart which shows an example of the conventional handover method.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram illustrating an exemplary configuration of a wireless communication system according to an embodiment. In FIG. 1, the wireless communication system includes a terminal device 1, a plurality of base station devices 3S and 3T, and a management device 5. The base station device 3S has a cell CELS. The terminal device 1 is located in the cell CELS. The terminal device 1 is connected to the base station device 3S to transmit and receive the wireless signal 100, and performs wireless communication with the base station device 3S. The base station device 3S is a handover source base station device of the terminal device 1. The base station device 3T has a cell CELT. The terminal device 1 is near the boundary of the cell CELT. The base station device 3T is a handover destination base station device of the terminal device 1.

  The base station device 3S and the base station device 3T communicate with the control plane 203. Further, the base station device 3S and the base station device 3T communicate with the user plane 303. Hereinafter, the base station devices 3S and 3T will be referred to as the base station device 3 unless otherwise specified.

  The management device 5 is a device that handles the control plane of the wireless communication system. The management device 5 and the base station device 3S communicate with the control plane 201. The management device 5 and the base station device 3T communicate with the control plane 202.

  The S-GW 7 is a device that handles a user plane. The S-GW 7 and the base station apparatus 3S communicate with the user plane 301. The S-GW 7 and the base station device 3 T communicate with the user plane 302. The S-GW 7 communicates the user plane 304 with a communication network outside the wireless communication system, for example, the Internet 9. The user plane packet of the terminal device 1 is transmitted to and received from the S-GW 7 via the handover source base station device 3S to which the terminal device 1 is connected. The terminal device 1 performs user plane communication with a communication network outside the wireless communication system, for example, the Internet 9 via the S-GW 7. The management device 5 and the S-GW 7 communicate with the control plane 204.

  FIG. 2 is a block diagram showing a configuration example of the terminal device 1 according to the present embodiment. In FIG. 2, the terminal device 1 includes a wireless communication unit 11, a terminal control unit 12, and a terminal storage unit 13. The wireless communication unit 11 performs wireless communication with the base station device 3. The terminal control unit 12 controls the terminal device 1. The terminal storage unit 13 stores data such as the terminal information 14 and the like. The terminal information 14 is information of the terminal device 1 including information of a wireless communication method supported by the own terminal device 1 and wireless communication resources such as a radio frequency band.

  The function of the terminal control unit 12 is realized by execution of a computer program by a CPU (Central Processing Unit) included in the terminal device 1. The terminal device 1 may be, for example, a mobile communication terminal device such as a smartphone or a tablet computer (tablet PC).

  FIG. 3 is a block diagram showing a configuration example of the base station device 3 according to the present embodiment. In FIG. 3, the base station apparatus 3 includes a wireless communication unit 31, a communication unit 32, a base station control unit 33, and a base station storage unit 34. The wireless communication unit 31 performs wireless communication with the terminal device 1. The communication unit 32 communicates with the other base station apparatus 3, the management apparatus 5, and the S-GW 7. The base station control unit 33 controls the base station apparatus 3. The base station storage unit 34 stores data such as the terminal information 35 and the base station information 36. The terminal information 35 is information of the terminal device 1 including information of a wireless communication method supported by the terminal device 1 under the control of the own base station device 3 and information of a wireless communication resource such as a radio frequency band. The base station information 36 is information of the base station device 3 including the information of the wireless communication system supported by the own base station device 3 and the wireless communication resources such as the radio frequency band. The function of the base station control unit 33 is realized by the CPU included in the base station device 3 executing a computer program.

  FIG. 4 is a block diagram showing a configuration example of the management device 5 according to the present embodiment. In FIG. 4, the management device 5 includes a communication unit 51, a management device control unit 52, and a management information storage unit 53. The management apparatus control unit 52 includes a measurement report acquisition unit 61, a handover determination unit 62, a permission control unit 63, and a handover instruction unit 64.

  The communication unit 51 communicates with the base station device 3 and the S-GW 7. The management device control unit 52 controls the management device 5. The management information storage unit 53 stores data such as base station information 54 and terminal information 55. The base station information 54 is information of the base station apparatus 3 including the information of the wireless communication system supported by the base station apparatus 3 subordinate to the self-management apparatus 5 and information of wireless communication resources such as a radio frequency band. The terminal information 55 is information of the terminal device 1 including the information of the wireless communication system supported by the terminal device 1 under the subordinate base station device 3 of the own management device 5 and the wireless communication resource such as the radio frequency band. The function of the management device control unit 52 is realized by the CPU of the management device 5 executing a computer program.

  The measurement report acquisition unit 61 reports a measurement report of the wireless communication quality between the terminal device 1 subordinate to the base station device 3 subordinate to the own management device 5 and the base station device 3 from the terminal device 1 from the handover source base. It acquires via the station apparatus 3S. The measurement report includes the measurement result of the wireless communication quality between the terminal device 1 and the base station device 3 around the terminal device 1. As a measurement result of the wireless communication quality between the terminal device 1 and the base station device 3 in the vicinity of the terminal device 1, for example, a measurement result of the reception strength of the radio signal received by the terminal device 1 from the base station device 3 in the vicinity Can be mentioned. The base station device 3 around the terminal device 1 includes the handover source base station device 3S and the handover destination base station device 3T.

  The handover determining unit 62 determines the handover of the terminal device 1 based on the measurement report acquired from the terminal device 1. The permission control unit 63 performs permission control of the handover of the terminal device 1 based on the information of the wireless communication resource of the base station device 3T of the handover destination of the terminal device 1 that has determined the handover. The handover instruction unit 64 issues a handover instruction to the terminal device 1 as the handover permission via the base station device 3S of the handover source, and issues a handover instruction to the handover destination base station device 3T.

  Next, the handover method according to the present embodiment will be described with reference to FIG. FIG. 5 is a sequence chart showing an example of the handover method according to the present embodiment. In FIG. 5, the signal in which the user plane (U-plane) is not described is a control plane (C-plane).

In FIG. 5, the user plane packet of the terminal device 1 is transmitted to and received from the S-GW 7 via the handover source base station device 3S to which the terminal device 1 is connected.
(Step S1) The measurement report acquisition unit 61 of the management device 5 transmits measurement control information (Measurement Configuration) to the terminal device 1 via the handover source base station device 3S.

(Step S2) When the base station control unit 33 of the base station apparatus 3S of the handover source receives the measurement control information from the management apparatus 5 and transfers the measurement control information to the terminal apparatus 1, the uplink (Uplink) to the terminal apparatus 1 is performed. Assign (UL Allocation)

(Step S3) The terminal control unit 12 of the terminal device 1 transmits its own measurement report (Measurement Report) to the management device 5 via the handover source base station device 3S. At this time, the base station control unit 33 of the base station device 3S of the handover source starts counting of a predetermined waiting time T1 after transferring the measurement report received from the terminal device 1 to the management device 5.

(Step S4) The handover determination unit 62 of the management device 5 determines the handover of the terminal device 1 based on the measurement report received from the terminal device 1 via the handover source base station device 3S. As an example of a method of determining a handover, a measurement result of the reception strength of a wireless signal received by the terminal device 1 from the base station device 3S of the handover source, and a wireless signal received by the terminal device 1 from the base station device 3T of the handover destination If the difference from the measurement result of the reception strength satisfies the required value for performing handover to the handover destination base station device 3T, the handover of the terminal device 1 is determined, and if not, the difference is It does not decide the handover.

(Step S5) The permission control unit 63 of the management device 5 performs permission control of the handover of the terminal device 1 based on the information of the wireless communication resource of the base station device 3T of the handover destination of the terminal device 1 that has determined the handover. The information of the wireless communication resource of the base station apparatus 3T of the handover destination is included in the base station information 54. As an example of the permission control method, when the wireless communication resource of the base station device 3T at the handover destination satisfies the requirement for the base station device 3T to control the terminal device 1, the handover of the terminal device 1 is permitted. Otherwise, the handover of the terminal device 1 is not permitted.

(Step S6) When the clocking of the waiting time T1 is completed, the base station control unit 33 of the base station device 3S of the handover source performs downlink allocation (DL Allocation) to the terminal device 1.

(Step S7) The handover instruction unit 64 of the management device 5 sends a handover instruction (Handover Command) to the terminal device 1 that is the handover permission via the base station device 3S of the handover source. In response to the handover instruction, the terminal device 1 starts handover to the handover destination base station device 3T. Further, the base station control unit 33 of the base station device 3S of the handover source prepares for the handover of the terminal device 1 based on the handover instruction to the terminal device 1 received from the management device 5. Furthermore, the handover instruction unit 64 of the management device 5 issues a handover instruction (Handover Command) to the handover destination base station device 3T. The handover destination base station device 3T prepares for the handover of the terminal device 1 based on the handover instruction from the management device 5.

  The waiting time T1 is determined in advance based on the time T2 required for the management apparatus 5 to receive a measurement report of the terminal device 1 and to issue a handover instruction for the terminal device 1. The waiting time T1 is preferably determined to be an appropriate length so as to satisfy “T1 <T2” and not too short in terms of effective use of the downlink.

  In addition, the base station apparatus 3S at the handover source does not allocate the downlink (Downlink) to the terminal apparatus 1 in step S6 (DL Allocation), and even if a predetermined waiting time T3 has elapsed, the terminal apparatus 1 When the handover instruction (Handover Command) from the management device 5 is not received, the downlink allocation performed for the terminal device 1 is canceled.

  The subsequent steps S8 to S22 correspond to steps S108 to S122 of the conventional handover method shown in FIG. This will be described specifically. The terminal device 1 performs detachment from the handover source base station device 3S, and performs handover to the handover destination base station device 3T (step S8). The handover source base station apparatus 3S performs packet handover processing to the handover destination base station apparatus 3T on the uplink (step S9). Next, the base station 3S at the handover source transmits "SN (sequence number) Status Transfer" to the base station 3T at the handover destination (step S10). Next, uplink data transfer in the user plane is performed between the handover source base station device 3S and the handover destination base station device 3T. The handover destination base station device 3T performs packet handover processing from the handover source base station device 3S on the uplink (step S11).

  The terminal device 1 establishes synchronization (Synchronization) with the handover destination base station device 3T (step S12). Next, the handover destination base station apparatus 3T performs uplink allocation (UL Allocation) and timing adjustment (TA (Timing Advance)) on the terminal apparatus 1 (step S13). Next, the terminal device 1 transmits handover completion (Handover Confirm) to the handover destination base station device (step S14).

Next, the handover destination base station device 3T transmits a path switch request (Path Switch Request) to the management device 5 (step S15). The management device 5 transmits a user plane update request (User Plane Update Request) to the S-GW 7 in response to the path switching request (step S16). The S-GW 7 performs downlink path switching in response to the user plane update request (step S17). Next, the S-GW 7 sends back a user plane update reply (User Plane Update Reply) to the management device 5 (step S18). Next, the management device 5 sends back a path switch request confirmation response (Path Switch Request ACK) to the handover destination base station device 3T (step S19). Next, the handover destination base station device 3T transmits resource release (Release Resource) to the handover source base station device 3S (step S20). Next, the handover source base station device 3S performs packet handover processing to the handover destination base station device 3T for the downlink (step S21). Next, downlink data transfer in the user plane is performed up to the end marker (End Marker) between the handover source base station 3S and the handover destination base station 3T. Next, the handover source base station apparatus 3S releases resources (step S22). Thereafter, the user plane packet of the terminal device 1 is transmitted to and received from the S-GW 7 via the handover destination base station device 3T to which the terminal device 1 is connected.
The above is the description of the handover method according to the present embodiment.

  In the embodiment described above, the management apparatus 5 includes the measurement report acquisition unit 61, the handover determination unit 62, the permission control unit 63, and the handover instruction unit 64, and the base station apparatus 3S of the handover source to the terminal apparatus 1 from the management apparatus 5. The base station device 3T of the handover destination prepares for the handover of the terminal device 1 based on the handover instruction from the management device 5 based on the handover instruction of the above. Thus, according to the present embodiment, in the control plane, a handover request (Handover Request, step S105a in FIG. 6) to the handover destination base station device according to the handover decision by the handover source base station device (handover request) Since the response (Handover Request ACK, step S105c in FIG. 6) to the handover source base station device according to the permission control by the base station device is deleted, the traffic load on the control plane between the base stations in handover is reduced. The effect of being able to

  Although the embodiments of the present invention have been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and design changes and the like within the scope of the present invention are also included.

Alternatively, a computer program for realizing the functions of the respective devices described above may be recorded in a computer-readable recording medium, and the computer system may read and execute the program recorded in the recording medium. Note that the “computer system” referred to here may include an OS and hardware such as peripheral devices.
The “computer readable recording medium” is a writable non-volatile memory such as a flexible disk, an optical magnetic disk, a ROM, a flash memory, etc., a portable medium such as a DVD (Digital Versatile Disc), etc. Storage devices such as hard disks.

Furthermore, the “computer-readable recording medium” is a volatile memory (for example, DRAM (Dynamic Memory) inside a computer system that becomes a server or client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line) As Random Access Memory), it is assumed that the program which holds the program for a fixed time is included.
The program may be transmitted from a computer system in which the program is stored in a storage device or the like to another computer system via a transmission medium or by transmission waves in the transmission medium. Here, the “transmission medium” for transmitting the program is a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line.
Further, the program may be for realizing a part of the functions described above. Furthermore, it may be a so-called difference file (difference program) that can realize the above-described functions in combination with a program already recorded in the computer system.

DESCRIPTION OF SYMBOLS 1 ... Terminal device, 3S, 3T ... Base station apparatus, 5 ... Management device, 7 ... S-GW, 11, 31 ... Wireless-communications part, 12 ... Terminal control part, 13 ... Terminal memory part, 32, 51 ... Communications part 33: base station control unit 34: base station storage unit 52: management apparatus control unit 53: management information storage unit 61: measurement report acquisition unit 62: handover decision unit 63: permission control unit 64 Handover indication unit

Claims (4)

A plurality of base station apparatuses, a terminal apparatus performing wireless communication with the base station apparatus, and a management apparatus performing control plane communication with the base station apparatus;
The management device is
A measurement report acquisition unit that acquires a measurement report of the wireless communication quality between the terminal device and the base station device from the terminal device via the handover source base station device;
A handover determination unit that determines handover of the terminal device based on the measurement report;
A permission control unit that performs permission control of handover of the terminal apparatus based on information of a wireless communication resource of a base station apparatus of a handover destination of the terminal apparatus that has determined the handover;
A handover instruction unit that issues a handover instruction to the terminal device that is a handover permit via the base station device of the handover source, and that issues a handover instruction to the base station device of the handover destination;
The handover source base station apparatus includes a base station control unit that prepares for handover of the terminal apparatus based on a handover instruction from the management apparatus to the terminal apparatus.
The handover destination base station apparatus includes a base station control unit that prepares for the handover of the terminal apparatus based on a handover instruction from the management apparatus.
Wireless communication system. The base station control unit of the base station apparatus at the handover source performs downlink allocation to the terminal apparatus after a predetermined waiting time elapses after transferring the measurement report received from the terminal apparatus to the management apparatus.
The wireless communication system according to claim 1. A handover method of a wireless communication system, comprising: a plurality of base station devices; a terminal device performing wireless communication with the base station device; and a management device performing control plane communication with the base station device. ,
A measurement report acquiring step of acquiring the measurement report of the wireless communication quality between the terminal apparatus and the base station apparatus from the terminal apparatus via the handover source base station apparatus;
A handover determining step in which the management device determines the handover of the terminal device based on the measurement report;
A permission control step of performing permission control of handover of the terminal apparatus based on information of a radio communication resource of a base station apparatus of a handover destination of the terminal apparatus for which the management apparatus has determined handover;
A handover instruction step of the management device instructing the terminal device which is the handover permission to perform a handover via the handover source base station device and instructing the handover destination base station device to perform a handover instruction;
A handover source base station control step in which the handover source base station device prepares for the handover of the terminal device based on a handover instruction to the terminal device;
A handover destination base station control step in which the handover destination base station device prepares for the handover of the terminal device based on a handover instruction from the management device;
Handover method including: A downlink allocation step of performing downlink allocation to the terminal device after a predetermined waiting time has elapsed since the base station device at the handover source has transferred the measurement report received from the terminal device to the management device;
The handover method according to claim 3, further comprising

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