JP2011250263A - Radio communication system and method thereof, and radio base station device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent frequent handover request to a hybrid cell from a terminal device of a non-CSG member and prevent the increase in burden on a base station device when the hybrid cell is congested and the terminal device of the non-CSG member cannot be connected.SOLUTION: A base station device forming an adjacent cell of a hybrid cell receives a handover request to the adjacent cell from the hybrid cell of a terminal device of a non-CSG member, including identifying information indicating the prohibition of handover to the hybrid cell of the terminal device of the non-CSG member, and then prevents any handover to the hybrid cell from the terminal device of the non-CSG member located in the adjacent cell.

Description

The present invention relates to a radio communication system and method, and a radio base station apparatus, and more particularly to a cellular radio communication system and method having a handover restriction function including a small-scale base station (for example, a femto base station), and such radio. The present invention relates to a radio base station apparatus used in a communication system.

Conventionally, in a cellular radio communication system such as a cellular phone, a macro cell system in which one base station covers a wide area has been used. The macro cell system is characterized in that it is suitable for high-speed movement because the number of handovers is small, and that the area can be expanded by a small number of base stations. However, the macro cell system has a drawback that it is difficult to take measures against a dead zone that occurs locally, such as indoors.
On the other hand, an approach to eliminate the dead zone by installing a base station that provides a cell smaller than the macro cell in a place where radio waves from the macro cell base station are difficult to reach has been considered.
In particular, recently, a femtocell system in which a small base station that can cover a single house is installed in each home is attracting attention. In so-called third generation cellular radio communication systems such as W-CDMA and EV-DO, etc. Femtocell commercial services are being started.
Also, in the Long Term Evolution (LTE), which is a successor to W-CDMA, standards for the femtocell method are being formulated.
In the femtocell system, a small base station (femtocell base station) having a radio wave coverage similar to that of a wireless LAN is installed in each home, and the femtocell base station is connected to a cellular communication network via the Internet. Since the femtocell base station aims to eliminate the dead zone, the femtocell may be operated in a form where the femtocell locally overlaps the macro cell.
Further, the femtocell has a function of permitting connection to a base station only for a limited subscriber's terminal, assuming use at home.
In W-CDMA and LTE, the following three types are defined as femtocell connection modes. First, like a macro cell, a mode that allows all subscriber terminals to connect to a base station (open access mode), and second, a limited subscriber terminal called a CSG (Closed Subscriber Group) member Only in the mode that allows connection to the base station (closed access mode), and thirdly, the CSG member is given priority, but terminals of other subscribers (hereinafter referred to as non-CSG members) are also transferred to the base station. Is a mode (hybrid access mode) that permits connection.
Among these, a cell operated in the closed access mode is called a CSG cell, and a cell operated in the hybrid access mode is called a hybrid cell.
An identifier called CSG ID is assigned to the CSG cell or hybrid cell, and a CSG member is defined for each CSG ID.

JP 2008-211411 A

3GPP TS36.321 v9.1.0 3GPP TS36.322 v9.0.0 3GPP TS36.323 v9.0.0 3GPP TS36.331 v9.1.0 3GPP TS36.413 v9.1.0 3GPP TS36.423 v9.1.0 3GPP TS 23.401 v9.3.0 3GPP TS36.304 v9.1.0

As described above, in the hybrid cell, terminal devices of CSG members (specific subscriber group) are preferentially connected to the base station device.
Accordingly, in a state where both CSG member and non-CSG member terminal devices are connected to the base station device forming the hybrid cell and the number of connections reaches the upper limit of the allowable number of base station devices (congestion state), a new CSG When a member terminal device tries to connect to a base station device by power-on or handover from another cell, the non-CSG member terminal device is disconnected from the base station device, and instead the CSG member terminal device It is required that the device can be connected.
However, when communication of a non-CSG member is terminated, convenience for the non-CSG member is impaired.
For this reason, as a method of disconnecting a non-CSG member terminal apparatus from a base station apparatus constituting a hybrid cell, it is desirable to perform handover to an adjacent cell to which the non-CSG member terminal apparatus can be connected.
Here, the hybrid cell after handing over the terminal device of the non-CSG member to the adjacent cell and connecting the terminal device of the CSG member to the base station device still has reached the upper limit of the allowable number of base station devices It has become. If priority is given to the connection of the terminal device of the CSG member in this state, the connection of the terminal device of the non-CSG member may be impossible.
However, at present, the non-CSG member terminal devices that are connected to the base station device that forms the hybrid cell cannot be connected to the base station device that constitutes the adjacent cell or the non-CSG member terminal device that is located in the adjacent cell in advance. Therefore, there is a possibility that a request for handover of a terminal device of a non-CSG member from the neighboring cell to the hybrid cell may occur.

In particular, in a non-CSG member terminal device that has been handed over from a hybrid cell to an adjacent cell in order to preferentially connect CSG member terminal devices, unlike a normal handover, the handover source hybrid cell has a higher handover destination. The reception quality of radio waves may be better than that of neighboring cells.
In this case, there is a possibility that a terminal request of a non-CSG member that has been handed over from the hybrid cell to the adjacent cell may be requested to return to the hybrid cell that was in the area before the handover.
In this way, when a request for handover of a non-CSG member terminal device from a neighboring cell of a hybrid cell in a state where a non-CSG member terminal device cannot be connected to the hybrid cell occurs, The forming base station apparatus rejects the handover request.
However, in such an operation, when a handover request to the hybrid cell by a non-CSG member terminal apparatus is frequently generated, the load on the network and the base station apparatus forming the hybrid cell increases.
Therefore, when a non-CSG member terminal device cannot be connected to the hybrid cell, if the hybrid cell is not selected as a handover destination of the non-CSG member terminal device in the adjacent cell of the hybrid cell, the above network or base Reduction of the load on the station equipment can be expected.
However, for this purpose, a process and system such as notifying a cell adjacent to a hybrid cell of whether or not a non-CSG member terminal device can be connected are required, but there is no mechanism at present.

In view of the above points, the present invention provides a terminal of a non-CSG member from a neighboring cell to the hybrid cell on the side of a base station apparatus that forms a cell adjacent to the hybrid cell when the hybrid cell is congested. An object of the present invention is to suppress a device handover request and prevent an increase in the load on a base station device forming a network and a hybrid cell.
Further, the present invention makes it possible to notify the application and release of the restriction of handover to the hybrid cell from the hybrid cell to the neighboring cell only with the existing handover procedure, and to define a new procedure for notification. The purpose is to make it unnecessary.

To solve the above problem,
A base station apparatus forming a neighbor cell of a hybrid cell includes a terminal of a non-CSG member including identification information indicating prohibition of handover of the terminal apparatus of the non-CSG member to the hybrid cell from the base station apparatus forming the hybrid cell When a request for handover from the hybrid cell to the neighboring cell is received, the handover of the terminal device of a non-CSG member located in the neighboring cell to the hybrid cell is suppressed.
Further, when the base station apparatus forming the adjacent cell of the hybrid cell receives a request for handover from the hybrid cell of the CSG member terminal apparatus to the adjacent cell from the base station apparatus forming the hybrid cell, the adjacent cell Cancels the suppression of handover of the terminal device of a non-CSG member located in the area to the hybrid cell.

According to the first solution of the present invention,
A wireless communication system comprising a plurality of base station devices and a plurality of terminal devices,
A first base station device that performs an operation of preferentially connecting one or a plurality of terminal devices belonging to a predetermined specific subscriber group to one or a plurality of terminal devices not belonging to the specific subscriber group;
A second base station device adjacent to the first base station device and capable of connecting one or more terminal devices not belonging to the specific subscriber group;

The second base station apparatus is
Identification information indicating from the first base station apparatus that at least one terminal apparatus that does not belong to the specific subscriber group is a target of handover and that a terminal apparatus that does not belong to the specific subscriber group is not permitted to be handed over Or identification information indicating that it corresponds to a handover for disconnecting at least one terminal device not belonging to the specific subscriber group in order to preferentially connect at least one terminal device belonging to the specific subscriber group. When one handover request is received, one or a plurality of terminal devices connected to the local station are prevented from being handed over to the first base station device. Carried out,
When receiving from the first base station apparatus a second handover request for handover of at least one terminal apparatus belonging to the specific subscriber group, one or more connected to the own station A wireless communication system is provided that cancels inhibition of handover to the first base station apparatus for terminal apparatuses that do not belong to the specific subscriber group.

According to the second solution of the present invention,
It consists of multiple base station devices and multiple terminal devices,
A first base station device that performs an operation of preferentially connecting one or a plurality of terminal devices belonging to a predetermined specific subscriber group to one or a plurality of terminal devices not belonging to the specific subscriber group;
A wireless communication method using a wireless communication system comprising a second base station device adjacent to the first base station device and capable of connecting one or more terminal devices not belonging to the specific subscriber group. There,

The second base station apparatus is
Identification information indicating from the first base station apparatus that at least one terminal apparatus that does not belong to the specific subscriber group is a target of handover and that a terminal apparatus that does not belong to the specific subscriber group is not permitted to be handed over Or identification information indicating that it corresponds to a handover for disconnecting at least one terminal device not belonging to the specific subscriber group in order to preferentially connect at least one terminal device belonging to the specific subscriber group. When one handover request is received, one or a plurality of terminal devices connected to the local station are prevented from being handed over to the first base station device. Carried out,
When receiving from the first base station apparatus a second handover request for handover of at least one terminal apparatus belonging to the specific subscriber group, one or more connected to the own station A wireless communication method is provided that cancels inhibition of handover to the first base station apparatus for terminal apparatuses that do not belong to the specific subscriber group.

According to the third solution of the present invention,
A wireless base station device to which a plurality of terminal devices are connected,
Having one or more terminal devices belonging to a specific subscriber group set in advance, an adjacent base station device that performs operation to preferentially connect to one or more terminal devices not belonging to the specific subscriber group;
In its own station, the operation to enable connection of one or more terminal devices that do not belong to the specific subscriber group,
Identification information indicating that at least one terminal device that does not belong to the specific subscriber group is a target of handover from the adjacent base station device, and that the terminal device that does not belong to the specific subscriber group is not permitted to be handed over or the specific First handover including identification information indicating that it corresponds to a handover for disconnecting at least one terminal device not belonging to the specific subscriber group in order to preferentially connect at least one terminal device belonging to the subscriber group When receiving the request, for one or a plurality of terminal devices connected to the own station, the terminal device that does not belong to the specific subscriber group, suppresses handover to the adjacent base station device,
When receiving a second handover request for handover of at least one terminal device belonging to the specific subscriber group from the adjacent base station device, one or more of the one or more connected to the own station, A radio base station apparatus is provided that cancels inhibition of handover to the adjacent base station apparatus for terminal apparatuses that do not belong to a specific subscriber group.

According to the fourth solution of the present invention,
A wireless base station device to which a plurality of terminal devices are connected,
One or more terminal devices belonging to a preset specific subscriber group are preferentially connected to one or more terminal devices not belonging to the specific subscriber group,
When one or more terminal devices that do not belong to the specific subscriber group are connected and the maximum number of connectable terminal devices are connected, a connection request is received from the first terminal device belonging to the specific subscriber group. If there was
Select a second terminal device that is connected to the local station and does not belong to the specific subscriber group,
Priority is given to identification information indicating that the second terminal apparatus is to be handed over and handover of a terminal apparatus not belonging to the specific subscriber group is not permitted, or at least one terminal apparatus belonging to the specific subscriber group A handover request including identification information indicating that it corresponds to a handover for disconnecting at least one terminal device that does not belong to the specific subscriber group for connection;
A radio base station apparatus is provided that transmits to an adjacent base station apparatus.

According to the present invention, when a hybrid cell is congested, a non-CSG member terminal device attempts handover from the adjacent cell to the hybrid cell on the side of the base station device forming the cell adjacent to the hybrid cell. Therefore, it is possible to prevent an increase in the load on the base station devices forming the network and the hybrid cell.
Further, according to the present invention, it is possible to notify the application and release of the restriction of handover from the hybrid cell to the neighboring cell only by the existing handover procedure. Procedure definition is not required.

The flowchart of the update operation | movement of the hand-over prohibition list | wrist of the base station apparatus in the 1st Embodiment of this invention. The block diagram of the cellular radio | wireless communications system in the 1st Embodiment of this invention. The internal block diagram of the base station apparatus in the 1st Embodiment of this invention. The non-CSG member restricted cell list in the first embodiment of the present invention. FIG. 5 is a handover sequence diagram according to the first embodiment of the present invention. Explanatory drawing showing the content of a Handover Required message. Explanatory drawing showing the content of a Handover Request message. The sequence diagram of the internal operation | movement of admission control of the base station apparatus in the 1st Embodiment of this invention. The flowchart of the connection availability determination operation | movement of the base station apparatus in the 1st Embodiment of this invention. The sequence diagram of the internal operation | movement of the hand-over process with respect to the terminal device of a non-CSG member of the base station apparatus in the 1st Embodiment of this invention. Explanatory drawing showing the content of the Handover Required message for the notification of the restriction | limiting of the hand-over to the hybrid cell of the terminal device of a non-CSG member in the 1st Embodiment of this invention, and the cancellation | release of restriction | limiting. Explanatory drawing showing the content of the Handover Request message for the notification of the restriction | limiting of the hand-over to the hybrid cell of the terminal device of a non-CSG member in the 1st Embodiment of this invention, and the notification of a restriction release. The flowchart of the hand-over destination determination operation | movement of the base station apparatus in the 1st Embodiment of this invention. The internal block diagram of the base station apparatus in the 2nd Embodiment of this invention. The flowchart of the update operation | movement of the measurement exclusion list | wrist of the base station apparatus in the 2nd Embodiment of this invention.

<A. Embodiment 1>
1. System A first embodiment of the present invention will be described with reference to the drawings.
FIG. 2 is a diagram illustrating the configuration of the cellular radio communication system according to the first embodiment of this invention.
The cellular radio communication system is composed of a plurality of base station apparatuses, and one or more terminal apparatuses are connected to each base station apparatus. Base station apparatuses 201 and 202 have a common wireless interface and use the same frequency band. Base station apparatuses 201 and 202 are connected to core network 208 by wired lines. The base station apparatus 201 is a macro cell base station, for example, a cellular base station having a call area (macro cell) with a radius of several hundred meters to about several tens of kilometers. The base station apparatus 202 is a femtocell base station, for example, a small cellular base station having a communication area (femtocell) with a radius of several tens of meters and a weak radio wave output. Here, it is assumed that the base station apparatus 202 forms a cell 207 of a narrower area inside the cell 206 formed by the base station apparatus 201, but a part of the area of the cell 207 is the cell 206. It may be duplicated.
The cell 206 is operated in the open access mode, and connection to the base station apparatus 201 is permitted for all terminals. The cell 207 is operated in the hybrid access mode.
The terminal devices 203a and 203b are connected to the base station device 201 or 202 via a wireless line and communicate with the core network 208 and the packet data network 209.
In addition to the base station devices 201 and 202, a mobility management device 204 and a gateway device 205 are connected to the core network 208. The mobility management device 204 has functions such as assignment of identifiers to terminal devices, location registration, calling, and terminal authentication, and transmits and receives control information to and from the base station devices 201 and 202. The gateway device 205 transfers user data between the packet data network 209 and the base station device 201 or 202.

FIG. 3 shows an example of an internal configuration diagram of the base station apparatuses 201 and 202.
Base station apparatuses 201 and 202 include an antenna 301, an RF processing unit 302, a physical layer processing unit 303, a network interface 304, and software 305.
The RF processing unit 302 is a processing unit that performs radio level signal processing, and can have the same configuration as the RF processing unit 602 in FIG.
The physical layer processing unit 303 is a processing unit that performs baseband signal processing in the physical layer.
The network interface 304 is a physical interface for the base station device 201 or 202 to communicate with other devices via the core network 208.
The software 305 includes a wireless protocol processing unit 306, a network protocol processing unit 307, and a call control unit 308.
The wireless protocol processing unit 306 is a processing unit that performs processing of a communication protocol used when the base station device performs wireless communication with the terminal device.
The network protocol processing unit 307 is a processing unit that performs processing of a communication protocol used when the base station device communicates with other devices connected to the core network 208.
Hereinafter, in the base station apparatuses 201 and 202, the wireless protocol and the network protocol are assumed to conform to the LTE standard described in Non-Patent Documents 1 to 6, as an example.
The call control unit 308 is a processing unit that performs procedures necessary for starting, continuing, and ending communication with a terminal device or other devices connected to the core network 208. A mission control unit 310 and a downlink signal quality measurement control unit 311 are included.
The call control unit 308 may include other processing units, but is omitted because it is not related to the present invention.
When the mobility control unit 309 receives a handover instruction from another control unit in the call control unit 308, the mobility control unit 309 determines a handover destination using information on the terminal device to be handed over and the neighboring cell included in the handover instruction. It is a processing unit.
The mobility control unit 308 also has a non-CSG member restricted cell list 312 that is referred to when determining a handover destination and updates the contents of the list.
Details of these operations of the movement control unit 309 will be described later.
The non-CSG member restricted cell list 312 is a list in which adjacent hybrid cells that do not accept access of terminal devices of non-CSG members are registered.
FIG. 4 shows a configuration diagram of the non-CSG member restricted cell list 312. In the non-CSG member restricted cell list 312, hybrid cell identification information and CSG ID are recorded in each entry.

The admission control unit 310 is a processing unit that determines whether to accept a connection request from a terminal device or a handover request from another base station.
Detailed operation of the admission control unit 310 will be described later.
The downlink signal quality measurement control unit 311 is a processing unit that performs settings related to measurement of reception quality of downlink signals of adjacent cells by the terminal device.
Specifically, the downlink signal quality measurement control unit 311 notifies the terminal device of information on neighboring cells and a trigger for reporting the measurement result to the base station.
Also, when a measurement result is reported from the terminal device, the downlink signal quality measurement control unit 311 determines whether or not the terminal device that has made the report needs to be handed over according to the trigger.
Further, when the downlink signal quality measurement control unit 311 determines that a handover is necessary, the downlink signal quality measurement control unit 311 issues a handover instruction to the movement control unit 309.
In the handover instruction, the terminal device that reported the measurement result is notified as the handover target terminal device. Further, information of all cells included in the measurement result report is notified as the adjacent cell.

2. Process 2-1. Handover

Next, the handover between the cell 206 and the cell 207 will be described in detail.
A message sequence between the base station apparatuses 201 and 202 forming each cell for handover between the cell 206 and the cell 207 is, for example, as shown in FIG. In accordance with a standard such as 1 or a known / well-known procedure, the steps up to step 9 correspond to preparation for handover, and the subsequent steps correspond to switching of communication paths.
Of these, the present invention relates only to the stage of handover preparation, so only the procedure for handover preparation will be described below.
FIG. 5 shows a sequence for preparing for handover from the cell 206 to the cell 207. FIG. 5A shows the operation when normal termination is performed, and FIG. 5B shows the operation when the handover is rejected by the handover destination base station apparatus.
In the case of handover from the cell 207 to the cell 206, the same sequence is performed except that the roles of the base station apparatus 201 and the base station apparatus 202 are opposite to those in FIG. 5 (hereinafter, FIG. 7, 8, 9). And so on).
The terminal device 203a or 203b transmits a Measurement Report message according to the setting notified from the base station in advance (step 501).
The base station apparatus 201 refers to the radio wave quality situation around the terminal notified by the Measurement Report message, and performs handover determination processing (step 502).
When the base station apparatus 201 determines to execute handover by the handover determination process, the base station apparatus 201 transmits a Handover Required message to the mobility management apparatus 204 (step 503).
The mobility management device 204 transmits a Handover Request message to the base station device 202 that forms the handover destination cell (step 504). With this message, identification information of the handover destination cell and information for establishing the upstream communication path (upstream communication path identification information, the address of the gateway device 205, etc.) are notified.
The base station apparatus 202 performs admission control based on the information notified in step 504 (step 505).

When the base station apparatus 202 determines to accept the handover in Step 505, the base station apparatus 202 transmits a Handover Request Acknowledge message to the mobility management apparatus 204 as a response to Step 504 (Step 506). With this message, information for establishing a downlink communication path (downstream communication path identification information, radio channel parameters, etc.) is notified.
The mobility management device 204 performs a procedure for establishing a data transfer path with the gateway device 205 (step 507), and then notifies the completion of securing the resources on the base station device 202 side as a response to step 503. Therefore, a Handover Command message is transmitted to the base station apparatus 201 (step 508).
The base station apparatus 201 finally determines a handover destination cell using information notified by the Handover Command message from the mobility management apparatus 204 (step 509).
When step 509 is completed, the communication path is switched thereafter (step 510).
On the other hand, when the base station apparatus 202 determines to reject the handover in Step 505, the base station apparatus 202 transmits a Handover Fail message to the mobility management apparatus 204 as a response to Step 504 (Step 511).
Receiving the Handover Fail message, the mobility management apparatus 204 transmits a Handover Preparation Fail message to the base station apparatus 201 as a response to Step 503 (Step 512).
Here, the contents of the Handover Required message and the Handover Request message are shown in FIGS. 6 (a) and 6 (b), respectively. However, some fields may be omitted. The definition of each field is described in, for example, the standard of Chapter 9 of Non-Patent Document 5, or a publicly known and well-known format can be adopted. Hereinafter, only fields related to the present invention will be referred to.
In the case of handover to a hybrid cell, the Handover Required message always includes a CSG Id field for notifying the handover destination CSG ID and a Cell Access Mode field for notifying that the handover destination cell is a hybrid cell.
The mobility management device 240 stores, as management information, for example, identification information of one or a plurality of terminal devices included in each CSG defined by the CSG ID of each hybrid cell or each CSG cell.
The mobility management device 240 that has received the Handover Required message including the CSG Id field and the Cell Access Mode field from the base station device 201 refers to the identification information of the terminal device described in the CSG Id field and the MME UE S1AP ID field. Based on the management information set in the own device, it is determined whether or not the terminal device is a terminal device of a CSG member of the hybrid cell, and the result is determined by the CSG Membership Status field of the Handover Request message as a base station device 202 is notified.

2-2. Admission Control Next, the admission control operation of the base station apparatus 202 in step 505 will be described in detail.
FIG. 7 shows an internal operation sequence of the base station apparatus 202 in step 505.
When the base station device 202 receives the Handover Request message from the mobility management device 204, the network protocol processing unit 307 notifies the admission control unit 310 of a connection request including identification information of the terminal device to be handed over (step 701). ).
When the admission control unit 310 receives the connection request, the admission control unit 310 performs a connection availability determination process (step 702). Details of the operation of the admission control unit 310 in step 702 will be described later.
If it is determined in step 702 that the non-CSG member terminal device needs to be handed over to the adjacent cell, the admission control unit 310 instructs the mobility control unit 309 to hand over the non-CSG member terminal device. (Step 703).
When the handover process (step 704) of the terminal device of the non-CSG member is completed and a handover completion notification is received from the mobility control unit 309 (step 705), the admission control unit 310 sends a connection request acceptance notification to the network protocol processing unit. Transmit (step 706).
If it is determined in step 702 that it is not necessary to hand over the non-CSG member terminal device to the adjacent cell, steps 703 to 705 are omitted. Further, a connection acceptance refusal notification may be transmitted instead of step 706, and, for example, a Handover Failure (step 511) may be transmitted instead of step 506.

FIG. 8 shows an operation flow of the admission control unit 310 in step 702.
When the admission control unit 310 receives the connection request notified from the network protocol processing unit 307 in step 701 (step 801), whether or not the number of connections of the terminal device at that time has reached the maximum value of the device. Is determined (step 802).
If the result of step 802 is that the number of connections has not reached the maximum value, the admission control unit 310 accepts the connection request (step 807).
If the number of connections reaches the maximum value as a result of step 802, the admission control unit 310 determines whether the terminal device notified in step 801 is a terminal device of a CSG member of the hybrid cell 207. (Step 803). In step 803, when the CSG ID reported from the terminal device matches the CSG ID of the cell 207 set in the own device, the admission control unit 310 determines that the terminal device is a CSG member of the cell 207. If this is not the case, it is determined that the terminal device is not a CSG member terminal device of the cell 207. Admission control unit 310 stores in advance a CSG ID of the CSG set by each cell of the own device in a predetermined storage unit.
As a result of Step 803, when the terminal device notified by the connection request is not a CSG member terminal device of the cell 207, the admission control unit 310 rejects the connection request (Step 808).
As a result of Step 803, when the terminal device notified by the connection request is the terminal device of the CSG member of the cell 207, the admission control unit 310 determines whether the non-CSG member is based on the information managing the connection state of the local station. It is determined whether or not the terminal device is connected (step 804).
As a result of step 804, when there is no connection of the terminal device of the non-CSG member, the admission control unit 310 has reached the maximum number of connections only with the terminal device of the CSG member. It is determined that connection is impossible, and the connection request is rejected (step 808).
As a result of step 804, when there is a connection of a non-CSG member terminal device, the admission control unit 310 selects one from the connected non-CSG member terminal devices (step 805). As a selection method of the terminal device in step 805, for example, a method of connecting to the own device for the longest time or selection according to a predetermined priority order can be considered.
Next, the admission control unit 310 gives a handover instruction to the movement control unit 309, and notifies the handover target terminal device and the handover destination cell (step 806). Here, the terminal device to be handed over notified in step 806 is the terminal device of the non-CSG member selected in step 805. The handover destination cell notified in step 806 is, for example, a cell in which the terminal device of the non-CSG member is located in the past, or a cell having a high quality in the measurement results of the downlink signal quality reported in the past. Can be considered.
After receiving the handover completion notification from the movement control unit 309, the admission control unit 310 accepts the connection request (step 807).

FIG. 9 shows a detailed sequence of the handover process of the base station 202 in step 704. Note that step 704 is a handover process for a non-CSG member terminal apparatus, but the same sequence is applied to a handover process for a CSG member terminal apparatus.
When the mobility control unit 309 of the base station apparatus 202 selects a handover destination of a terminal apparatus of a non-CSG member by a handover instruction (steps 901 and 703) from the admission control unit 310 or the downlink signal quality measurement control unit 311 ( In step 902), the network protocol processing unit 307 is instructed to generate a Handover Required message (step 903).
The network protocol processing unit 307 transmits a Handover Required message (Step 904), and when receiving the Handover Command message as a response (Step 905), notifies the movement control unit 309 of the reception of the Handover Command message (Step 906). ).
The movement control unit 309 performs steps 509 and 510 in FIG. 5 based on the result of step 906, and when these are completed, notifies the processing unit that issued the handover instruction of step 901 of the completion of handover (step 907). In addition, the movement control unit 309 transmits a Handover Request message to the base station apparatus 201 in Step 909.

Next, a detailed description will be given of the restriction on the handover to the cell 207 of the terminal device of the non-CSG member and the notification of the restriction release.
FIGS. 10A and 10B respectively show the contents of the Handover Required message and the Handover Request message used in the notification. FIG. 10 is different from FIG. 6 in that an E-UTRAN CGI field for notifying identification information of a handover source cell is added. Further, the CSG Id field is the same as FIG. 6 in terms of format, but describes the CSG ID of the handover source cell, not the CSG ID of the handover destination cell.
When the movement control unit 309 of the base station apparatus 202 is instructed by the admission control unit 310 to hand over the terminal device of the non-CSG member in step 901, in step 903, the mobility control unit 309 instructs the network protocol processing unit 307.
Set the CSG ID of the cell 207 in the own station in the CSG Id field, set "hybrid" for the own station in the Cell Access Mode field, set "Transport Resource Unavailable" in the Cause field (handover factor), and set E- Instructs generation of a Handover Required message in which the identification information of the cell 207 is set in the UTRAN CGI field.
The network protocol processing unit 307 generates the Handover Required message and sends it to the mobility management device 204.
The mobility management apparatus 204 that has received the Handover Required message sets “not-member” in the CSG Membership Status field, and sets the same value as that of the Handover Required message in the CSG Id field and Cause field. To the base station apparatus 201.
In the base station apparatus 201 that has received the Handover Request message, the mobility control unit 309 adds the cell 207 to the non-CSG member restricted cell list 312 according to the operation shown in FIG. For example, the base station apparatus 201 stores the identification information of the cell 207 by E-UTRAN CGI and the CSG ID in the non-CSG member restricted cell list 312 in association with each other.
In addition, when the movement control unit 309 of the base station apparatus 202 is instructed by the downlink signal quality measurement control unit 311 to hand over the CSG member terminal device in step 901, in step 903, the network control processing unit 307
The CSG Id field sets the CSG ID of the cell 207 in the own station, the Cell Access Mode field sets “hybrid” for the own station, and the E-UTRAN CGI field sets the identification information of the cell 207 in the Handover Required message. Directs generation.
The network protocol processing unit 307 generates the Handover Required message and sends it to the mobility management device 204.
The mobility management device 204 that has received the Handover Required message sets “member” in the CSG Membership Status field, and sets a Handover Request message in which the same value as that of the Handover Required message is set in the CSG Id field and Cause field. Transmit to the station device 201.
In the base station apparatus 201 that has received the Handover Request message, the mobility control unit 309 deletes the cell 207 from the non-CSG member restricted cell list 312 according to the operation illustrated in FIG. 1 described below.

2-3. Update of Non-CSG Member Restricted Cell List FIG. 1 shows a flow of an update operation of the non-CSG member restricted cell list 312 in the mobility control unit 309 of the base station apparatus 201. Note that the base station apparatus 202 can perform the same processing.
When receiving the Handover Request message (for example, see FIG. 10B) (Step 101), the mobility control unit 309 of the base station apparatus 201 determines whether or not the handover source cell is a hybrid cell (Step 102). . In Step 102, the mobility control unit 309 determines that the handover source cell is a hybrid cell when the CSG Id field is included in the Handover Request message received in Step 101, and otherwise, It is determined that the handover source cell is not a hybrid cell.
If the handover source cell is a hybrid cell as a result of Step 102, the mobility control section 309 determines whether or not the terminal device to be handed over is a CSG member terminal device of the handover source cell (Step 103). In Step 103, when the value of the CSG Membership Status field of the Handover Request message received in Step 101 is “member”, the mobility control unit 309 determines that the terminal device targeted for handover is the CSG member of the handover source cell. When the terminal device is determined to be a terminal device and the value of the CSG Membership Status field is “not-member”, it is determined that the terminal device to be handed over is not the terminal device of the CSG member of the handover source cell.
As a result of Step 103, when the terminal device to be handed over is a CSG member terminal device of the handover source cell, the mobility control unit 309 refers to the non-CSG member restricted cell list 312 and registers the handover source cell. It is determined whether or not (step 107). For example, the mobility control unit 309 refers to the E-UTRAN CGI field of the Handover Request message received in Step 101, and the handover source cell identification information set therein is registered in the non-CSG member restricted cell list 312. It can be determined whether or not.
If the result of step 107 is that the handover source cell is not registered in the non-CSG member restricted cell list 312, the mobility control unit 309 immediately ends the process.
When the handover source cell is registered in the non-CSG member restricted cell list 312 as a result of Step 107, the mobility control unit 309 deletes the handover source cell from the non-CSG member restricted cell list 312 (Step 108). The process ends.
On the other hand, if the result of Step 103 is that the terminal device to be handed over is not a CSG member terminal device of the handover source cell, the mobility control unit 309 refers to the Cause field of the Handover Request message and determines whether the value is Transport Resource Unavailable. It is determined whether or not (step 104).
As a result of Step 104, when the value of the Cause field is not Transport Resource Unavailable, the mobility control unit 309 is congesting the non-CSG member terminal device for the purpose of preferentially connecting the CSG member terminal device. It is determined that it does not correspond to the handover for disconnecting from the hybrid cell, and the process is immediately terminated.
If the value of the Cause field is “Transport Resource Unavailable” as a result of Step 104, the mobility control unit 309 is congesting the non-CSG member terminal device for the purpose of connecting the requested CSG member terminal device preferentially. It is determined that this is a handover for disconnecting from the hybrid cell, and it is determined whether or not the handover source cell is registered with reference to the non-CSG member restricted cell list 312 (step 105).
If the result of step 105 is that the handover source cell is registered in the non-CSG member restricted cell list 312, the mobility control unit 309 immediately ends the process.
If the result of step 105 is that the handover source cell is not registered in the non-CSG member restricted cell list 312, the mobility controller 309 registers the handover source cell identification information and the CSG ID in the non-CSG member restricted cell list 312. (Step 106), and the process ends.

2-4. Determination of Handover Destination Cell FIG. 11 shows a flow of processing for determining a handover destination cell by the movement control unit 309 of the base station apparatus 201 when a terminal device located in the cell 206 hands over to another cell. Note that the base station apparatus 202 can perform the same processing.
When the mobility control unit 309 receives a handover instruction from the downlink signal quality measurement control unit 311 or the admission control unit 310 (step 1101), the movement control unit 309 performs the following operation for all neighboring cells included in the handover instruction.
First, the movement control unit 309 determines whether or not the neighboring cell is registered in the non-CSG member restricted cell list 312 (step 1102).
If the result of step 1102 is that the adjacent cell is not registered in the non-CSG member restricted cell list 312, the mobility controller 309 adds the adjacent cell to the handover destination candidate (step 1105).
On the other hand, if the result of step 1102 is that the neighboring cell is registered in the non-CSG member restricted cell list 312, the movement control unit 309
It is determined whether or not the terminal device targeted for handover notified by the handover instruction is a terminal device of a CSG member of the neighboring cell (step 1103). In step 1103, the mobility control unit 309 refers to the non-CSG member restricted cell list 312, and the CSG ID reported in advance from the terminal device and the CSG of the cell described in the non-CSG member restricted cell list. When the IDs match, it is determined that the terminal device is a terminal device of the CSG member of the cell, and otherwise, it is determined that the terminal device is not a terminal device of the CSG member of the cell.
If the result of step 1103 is that the terminal device is a CSG member terminal device of the neighboring cell, the mobility control section 309 adds the neighboring cell to the handover destination candidate (step 1105).
If the result of step 1103 is that the terminal device is not a CSG member terminal device of the neighboring cell, the mobility control section 309 excludes the neighboring cell from handover destination candidates (step 1104).
The mobility control unit 309 performs the above operation for all the neighboring cells included in the handover instruction, and then determines whether there is a handover destination candidate (step 1106).
If the result of step 1106 is that there is no handover destination candidate, the processing is immediately terminated.
If there is a handover destination candidate as a result of step 1106, the mobility control unit 309 performs evaluation between the handover destination candidates (step 1107), and determines the candidate with the highest evaluation result as the handover destination (step 1108). The operations of Steps 1107 and 1108 are performed in accordance with, for example, the method described in Chapters 5.2.3 and 5.2.4 of Non-Patent Document 8, and the downlink signal quality of the adjacent cell reported from the terminal device to be handed over Alternatively, it is performed with reference to a preset priority of cell selection.
Next, the movement control unit 309 instructs the network protocol processing unit 307 to start the handover procedure shown in FIG. 5 with respect to the handover destination determined in step 1108 (step 1109).

3. Conclusion According to the operation described using FIG. 1, FIG. 8, and FIG. 11, the base station device 201 sets Transport Resource Unavailable in the Cause field from the base station device 202, and the non-CSG member of the cell 207 When the terminal apparatus receives a handover request for moving from the cell 207 to the cell 206, the terminal apparatus subsequently suppresses handover of the terminal apparatus of the non-CSG member from the cell 206 to the cell 207.
Further, the base station apparatus 201 suppresses the handover of the non-CSG member terminal apparatus from the cell 206 to the cell 207, and the CSG member terminal apparatus of the cell 207 is transferred from the cell 207 to the base station apparatus 202. When a handover request to move to the cell 206 is received, the suppression of the handover is released thereafter.
Here, the suppression of the handover of the terminal device of the non-CSG member from the cell 206 to the cell 207 is performed at the time of step 502 in FIG. 5 in the base station 201 forming the handover source cell 206, and after the step 503 No action is taken.
This eliminates the need for a handover request from the base station 201 to the base station apparatus 202 that forms the handover destination cell 207, thereby reducing the load on the network.
Further, since the connection refusal at the base station apparatus 202 becomes unnecessary, the load on the base station apparatus 202 is also reduced.
Furthermore, the start and end of the handover inhibition of the non-CSG member terminal apparatus from the cell 206 to the cell 207 is triggered by the handover from the cell 207 to the cell 206. For this reason, it is not necessary to newly define a procedure for starting and ending handover suppression between the base station apparatuses 201 and 202 forming each cell.

<B. Second Embodiment>

1. System A second embodiment of the present invention will be described with reference to FIGS.
FIG. 12 shows an example of the internal configuration of the base station apparatus 201.
Note that the base station apparatus 202 can also have the same configuration.
In addition, the same code | symbol is attached | subjected to the part which has the same function as FIG. 3, and detailed description is abbreviate | omitted.
Referring to FIG. 12, the base station apparatus 201 according to the second embodiment of the present invention is different from the first embodiment in that the downlink signal quality measurement control unit 1201 has a measurement exclusion list 1202. . This measurement exclusion list 1202 is for registering identification information of neighboring cells to be excluded from processing targets for measuring downlink signal quality.
Note that the base station apparatus 202 can also have the same configuration.

2. Processing In addition to the function of the downlink signal quality measurement control unit 311 in the first embodiment, the downlink signal quality measurement control unit 1201 updates the measurement exclusion list 1202, and at that time the terminal device residing in the own cell. On the other hand, it has a function of changing the setting of downlink signal quality measurement.
FIG. 13 shows a flow of the update operation of the measurement exclusion list 1202 in the downlink signal quality measurement control unit 1201 of the base station apparatus. Compared with the first embodiment, in particular, steps 101 to 104 in FIG. 1 correspond to steps 1301 to 1304 in FIG. 13 and other steps are different. Note that the base station apparatus 202 can perform the same processing.
When downlink signal quality measurement control section 1201 receives the Handover Request message (step 1301), it determines whether or not the handover source cell is a hybrid cell, similarly to step 102 in the first embodiment (step 1302). .
When the handover source cell is a hybrid cell as a result of Step 1302, the downlink signal quality measurement control section 1201 is the terminal device of the CSG member of the handover source cell, as in Step 103 in Embodiment 1. It is determined whether or not (step 1303).
If, as a result of Step 1303, the terminal device to be handed over is a CSG member terminal device of the handover source cell, the downlink signal quality measurement control section 1201 refers to the measurement exclusion list 1202 and has the handover source cell registered? It is determined whether or not (step 1308).
As a result of Step 1308, if the handover source cell is not registered in the measurement exclusion list 1202, the downlink signal quality measurement control unit 1201 immediately ends the process.
If the handover source cell is registered in the measurement exclusion list 1202 as a result of Step 1308, the downlink signal quality measurement control unit 1201 deletes the handover source cell from the measurement exclusion list 1202 (Step 1309). Next, the downlink signal quality measurement control unit 1201 transmits the downlink signal to all the non-CSG member terminal devices of the handover source cell (hybrid cell) connected to the local station and deleted from the measurement exclusion list in Step 1309. After changing the setting of the downlink signal quality measurement so that the cell is included in the quality measurement target (step 1310), the process ends.
As a result of Step 1303, when the terminal device to be handed over is not a CSG member terminal device of the handover source cell, the downlink signal quality measurement control section 1201 refers to the Cause field of the Handover Request message, and the value is Transport Resource Unavailable. It is determined whether or not (step 1304).
If the value of the Cause field is not Transport Resource Unavailable as a result of Step 1304, the downlink signal quality measurement control unit 1201 is configured to preferentially connect the CSG member terminal device to the hybrid cell in which the requested handover is congested. The non-CSG member terminal device is determined not to be a handover for disconnecting from the congested hybrid cell, and the process is immediately terminated.
As a result of step 1304, when the value of the Cause field is Transport Resource Unavailable, the downlink signal quality measurement control unit 1201 determines that the requested handover is a non-CSG member terminal for the purpose of preferentially connecting the CSG member terminal apparatuses. It is determined that it corresponds to the handover for separating the apparatus from the congested hybrid cell, and it is determined whether or not the handover source cell is registered with reference to the measurement exclusion list 1202 (step 1305).
As a result of Step 1305, when the handover source cell is registered in the measurement exclusion list 1202, the downlink signal quality measurement control unit 1201 immediately ends the process.
As a result of step 1305, when the handover source cell is not registered in the measurement exclusion list 1202, the downlink signal quality measurement control unit 801 registers the handover source cell in the measurement exclusion list 1202 (step 1306). Next, the downlink signal quality measurement control unit 1201 transmits the downlink signal to all the non-CSG member terminal devices of the handover source cell (hybrid cell) connected to the own device and registered in the measurement exclusion list in Step 1306. After changing the setting of the downlink signal quality measurement so as to exclude the cell from the quality measurement target (step 1307), the process ends.

According to the operation described with reference to FIG. 13, the base station apparatus 201 receives a request for handover from the base station apparatus 202 to the cell 206 from the cell 207 of the terminal apparatus of the non-CSG member in which Transport Resource Enableable is set in Cause. Then, thereafter, the non-CSG member terminal devices located in the cell 206 do not include the cell 207 in the report of the downlink signal quality measurement result addressed to the base station device 201. Thereby, in the base station apparatus 201, when determining the handover destination of the terminal apparatus of a non-CSG member, the base station apparatus 201 performs processing with reference to information on neighboring cells excluding the cell 207.
In addition, when the base station apparatus 201 receives a request for handover from the cell station 207 of the CSG member terminal apparatus to the cell 206 from the base station apparatus 202 in the above-described state, the non-existing area in the cell 206 thereafter. The CSG member terminal apparatus includes the cell 207 in the downlink signal quality measurement result report addressed to the base station apparatus 201. Thereby, in the base station apparatus 201, the cell 207 can be selected when determining the handover destination of the terminal apparatus of a non-CSG member.

3. Conclusion In the second embodiment of the present invention, when the terminal device of the non-CSG member is not permitted to hand over to the cell 207, the base station device 201 excludes the cell 207 from the beginning, and the terminal of the non-CSG member Since the handover destination of the apparatus is determined, it is possible to reduce the load on the base station apparatus 201 in the handover as compared with the first embodiment.

In the first and second embodiments of the present invention, the cell adjacent to the hybrid cell is a macro cell operated in the open access mode, but instead, a femto cell operated in the open access mode, It is also possible to use a macro cell or a femto cell operated in the hybrid access mode.

101: Step for receiving a Handover Request message 102: Step for determining whether the handover source cell is a hybrid cell 103: Step for determining whether the terminal is a CSG member of the handover source cell 104: Cause of the Handover Request message Step 105 for determining whether the value of the field is Transport Resource Unavailable 105 ... Step for determining whether the handover source cell is registered in the handover prohibition list 106 ... Step for registering the handover source cell in the handover prohibition list 107 ... Step of determining whether or not the handover source cell is registered in the handover prohibition list 108 ... Step 201 ... base station apparatus 202 to be removed from the forbidden list ... base station apparatus 203a ... terminal device 203b ... terminal 204 ... mobile management device 205 ... gateway device 206 ... macrocell 207 ... femtocell (hybrid cells)
208 ... Core network 209 ... Packet data network 301 ... Antenna 302 ... RF processing unit 303 ... Physical layer processing unit 304 ... Network interface 305 ... Software 306 ... Wireless protocol processing unit 307 ... Network protocol processing unit 308 ... Call control unit 309 ... Movement Control unit 310 ... Admission control unit 311 ... Downlink signal quality measurement control unit 312 ... Handover prohibition list 501 ... Step for transmitting Measurement Report message 502 ... Step for determining necessity of handover 503 ... Step for transmitting Handover Required message 504 ... Step for transmitting Handover Request message 505 ... Step for performing admission control 506 ... Ha Step 507 to send a nover Request Acknowledge message 507 ... Step to establish a data transfer route 508 ... Step to send a Handover Command message 509 ... Step to determine a handover destination cell 510 ... Step to switch communication route 511 ... Send a Handover Failure message Step 512: Transmitting a Handover Preparation Failure message 701: Requesting a connection 702 ... Determining whether or not connection is possible 703 ... Instructing handover of a non-CSG member terminal apparatus 704 ... Handover of a non-CSG member terminal apparatus Step 705 for performing processing: Step 7 for notifying completion of handover 7 6 ... Step for notifying acceptance of connection request 801 ... Step for receiving connection request 802 ... Step for judging whether or not the number of connections of the terminal has reached the maximum value 803 ... The terminal notified by the connection request is its own cell Step 804 for determining whether or not a non-CSG member is connected 805 Step for determining whether or not a non-CSG member is connected 805 Step for selecting one of the connected non-CSG members 806. Step for instructing handover of non-CSG member 807 ... Step for accepting connection request 808 ... Step for rejecting connection request 901 ... Step for instructing handover 902 ... Step for selecting handover destination 903 ... Step for instructing transmission of Handover Required message 904 ... Handove Step 905... Transmitting a Handover Command message 906... Notification of reception of the Handover Command message 907... Notification of completion of handover 1101... Step 1102 for receiving handover instruction 1102. Step 1103 for determining whether the terminal device is registered in the list Step 1103 for determining whether the terminal device is a CSG member of the neighboring cell 1104 Step for excluding the neighboring cell from the handover destination candidates 1105... Step 1106 to add to candidate 1106 ... Step to determine whether or not there is a handover destination candidate 1107 ... Step to perform evaluation of handover destination candidate 1108 Step for determining handover destination 1109 Step for performing handover procedure 1201 Downlink signal quality measurement control unit 1202 Measurement exclusion list 1301 Step for receiving Handover Request message 1302 Determination on whether handover source cell is a hybrid cell Step 1303: Step of determining whether the terminal is a CSG member of the handover source cell 1304: Step of determining whether the value of the Cause field of the Handover Request message is Transport Resource Unavailable 1305: The handover source cell Step of determining whether or not it is registered in the measurement exclusion list 1306 Step for registering the handover source cell in the measurement exclusion list 1307: Notifying the terminal device located in the own cell of a change in downlink signal quality measurement setting so as to exclude the handover source cell from the measurement target 1308: Whether the handover source cell is registered in the measurement exclusion list Step 1309 for determining whether or not to delete the handover source cell from the measurement exclusion list 1310... Change the setting of downlink signal quality measurement so that the terminal device located in the own cell includes the handover source cell in the measurement target. Notification step

Claims (13)

A wireless communication system comprising a plurality of base station devices and a plurality of terminal devices,
A first base station device that performs an operation of preferentially connecting one or a plurality of terminal devices belonging to a predetermined specific subscriber group to one or a plurality of terminal devices not belonging to the specific subscriber group;
A second base station device adjacent to the first base station device and capable of connecting one or more terminal devices not belonging to the specific subscriber group;

The second base station apparatus is
Identification information indicating from the first base station apparatus that at least one terminal apparatus that does not belong to the specific subscriber group is a target of handover and that a terminal apparatus that does not belong to the specific subscriber group is not permitted to be handed over Or identification information indicating that it corresponds to a handover for disconnecting at least one terminal device not belonging to the specific subscriber group in order to preferentially connect at least one terminal device belonging to the specific subscriber group. When one handover request is received, one or a plurality of terminal devices connected to the local station are prevented from being handed over to the first base station device. Carried out,
When receiving from the first base station apparatus a second handover request for handover of at least one terminal apparatus belonging to the specific subscriber group, one or more connected to the own station A radio communication system that cancels inhibition of handover to the first base station apparatus for terminal apparatuses that do not belong to the specific subscriber group.
The second base station apparatus is
2. The wireless communication system according to claim 1, wherein a handover destination is determined excluding the first base station apparatus during a period during which the handover is suppressed.
The second base station apparatus is
When receiving the first handover request, the first base station apparatus connects the first base station apparatus to the one or more terminal apparatuses that do not belong to the specific subscriber group. Notifying the reception quality of the downlink signal from the first base station apparatus, which triggers a handover to the base station apparatus,
When receiving the second handover request, notify one or more terminal devices connected to the second base station device that do not belong to the specific subscriber group to perform the report. The wireless communication system according to claim 1 or 2, characterized in that:
The first base station apparatus or the second base station apparatus is
When one or more terminal devices that do not belong to the specific subscriber group are connected and the maximum number of connectable terminal devices are connected, a connection request is received from the first terminal device belonging to the specific subscriber group. If there was
The first handover request that selects a second terminal device that is connected to the local station and does not belong to the specific subscriber group, and targets the second terminal device as a handover target. The wireless communication system according to claim 1, wherein the wireless communication system is transmitted to an adjacent base station apparatus.
It consists of multiple base station devices and multiple terminal devices,
A first base station device that performs an operation of preferentially connecting one or a plurality of terminal devices belonging to a predetermined specific subscriber group to one or a plurality of terminal devices not belonging to the specific subscriber group;
A wireless communication method using a wireless communication system comprising a second base station device adjacent to the first base station device and capable of connecting one or more terminal devices not belonging to the specific subscriber group. There,

The second base station apparatus is
Identification information indicating from the first base station apparatus that at least one terminal apparatus that does not belong to the specific subscriber group is a target of handover and that a terminal apparatus that does not belong to the specific subscriber group is not permitted to be handed over Or identification information indicating that it corresponds to a handover for disconnecting at least one terminal device not belonging to the specific subscriber group in order to preferentially connect at least one terminal device belonging to the specific subscriber group. When one handover request is received, one or a plurality of terminal devices connected to the local station are prevented from being handed over to the first base station device. Carried out,
When receiving from the first base station apparatus a second handover request for handover of at least one terminal apparatus belonging to the specific subscriber group, one or more connected to the own station A radio communication method comprising: canceling inhibition of handover to the first base station apparatus for a terminal apparatus that does not belong to the specific subscriber group.
A wireless base station device to which a plurality of terminal devices are connected,
Having one or more terminal devices belonging to a specific subscriber group set in advance, an adjacent base station device that performs operation to preferentially connect to one or more terminal devices not belonging to the specific subscriber group;
In its own station, the operation to enable connection of one or more terminal devices that do not belong to the specific subscriber group,
Identification information indicating that at least one terminal device that does not belong to the specific subscriber group is a target of handover from the adjacent base station device, and that the terminal device that does not belong to the specific subscriber group is not permitted to be handed over or the specific First handover including identification information indicating that it corresponds to a handover for disconnecting at least one terminal device not belonging to the specific subscriber group in order to preferentially connect at least one terminal device belonging to the subscriber group When receiving the request, for one or a plurality of terminal devices connected to the own station, the terminal device that does not belong to the specific subscriber group, suppresses handover to the adjacent base station device,
When receiving a second handover request for handover of at least one terminal device belonging to the specific subscriber group from the adjacent base station device, one or more of the one or more connected to the own station, A radio base station apparatus that cancels inhibition of handover to the adjacent base station apparatus for a terminal apparatus that does not belong to a specific subscriber group.
The radio base station apparatus according to claim 6, wherein a handover destination is determined by excluding the adjacent base station apparatus during a period during which the handover is suppressed.
When the first handover request is received, one or a plurality of terminal devices connected to the own station with respect to the terminal device, the handover trigger from the own station to the adjacent base station device Notifying the local station not to report the reception quality of the downlink signal from the adjacent base station device,
When the second handover request is received, one or a plurality of terminal devices connected to the own station that are not belonging to the specific subscriber group are notified to perform the report to the own station. The radio base station apparatus according to claim 6 or 7, characterized in that:
A wireless base station device to which a plurality of terminal devices are connected,
One or more terminal devices belonging to a preset specific subscriber group are preferentially connected to one or more terminal devices not belonging to the specific subscriber group,
When one or more terminal devices that do not belong to the specific subscriber group are connected and the maximum number of connectable terminal devices are connected, a connection request is received from the first terminal device belonging to the specific subscriber group. If there was
Select a second terminal device that is connected to the local station and does not belong to the specific subscriber group,
Priority is given to identification information indicating that the second terminal apparatus is to be handed over and handover of a terminal apparatus not belonging to the specific subscriber group is not permitted, or at least one terminal apparatus belonging to the specific subscriber group A handover request including identification information indicating that it corresponds to a handover for disconnecting at least one terminal device that does not belong to the specific subscriber group for connection;
A radio base station apparatus that transmits to an adjacent base station apparatus.
Further, the identification information of the neighboring cell that temporarily does not accept the access of the terminal device that does not belong to the specific subscriber group and the subscriber group identifier (ID) for identifying the specific subscriber group are stored correspondingly. It has a subscriber group member restricted cell list,
Receiving a handover request message in which a member status field indicating whether or not belonging to a specific subscriber group, a subscriber group ID, and a Cause field indicating a cause of handover are set;
When the subscriber group ID is included in the handover request message, based on the data in the member status field, determine whether the terminal device to be handed over is a terminal device belonging to the specific subscriber group of the handover source cell,
When the terminal device to be handed over is a terminal device belonging to a specific subscriber group of the handover source cell and the handover source cell is registered in the non-subscriber group member restricted cell list, the handover source cell is Delete from subscriber group member restricted cell list,
On the other hand, if the terminal device to be handed over is not a terminal device belonging to the specific subscriber group of the handover source cell, and the data in the Cause field of the handover request message indicates that the requested handover belongs to the specific subscriber group When a handover is performed to disconnect a terminal device that does not belong to a specific subscriber group from a congested cell for the purpose of preferential connection, and the handover source cell is not registered in the non-subscriber group member restricted cell list The radio base station apparatus according to claim 6, wherein identification information of a handover source cell and a subscriber group ID are registered in a non-subscriber group member restricted cell list.
Further, the identification information of the neighboring cell that temporarily does not accept the access of the terminal device that does not belong to the specific subscriber group and the subscriber group identifier (ID) for identifying the specific subscriber group are stored correspondingly. It has a subscriber group member restricted cell list,
When receiving the handover instruction, for all neighboring cells included in the handover instruction,
If the neighboring cell is not registered in the non-subscriber group member restricted cell list, add the neighboring cell to the handover destination candidate,
on the other hand,
When the neighboring cell is registered in the non-subscriber group member restricted cell list, the subscriber group ID reported in advance from the terminal device and the neighboring cell described in the non-subscriber group member restricted cell list Whether or not the terminal group belongs to a specific subscriber group of the adjacent cell, according to whether or not the subscriber group ID of
If the terminal device belongs to a specific subscriber group of the neighboring cell, the neighboring cell is added to the handover destination candidate, while if the terminal device does not belong to the specific subscriber group of the neighboring cell, the neighboring cell The radio base station apparatus according to claim 7, wherein the radio base station apparatus is excluded from handover destination candidates.
In addition, a measurement exclusion list for registering neighboring cells to be excluded from the processing target for downlink signal quality measurement,
Receiving a handover request message in which a member status field indicating whether or not belonging to a specific subscriber group, a subscriber group ID, and a Cause field indicating a cause of handover are set;
If the handover request message includes a subscriber group ID, based on the data in the member status field, determine whether the terminal device to be handed over belongs to a specific subscriber group of the handover source cell,
When the handover target terminal device belongs to a specific subscriber group of the handover source cell and the handover source cell is registered in the measurement exclusion list, the handover source cell is deleted from the measurement exclusion list and connected to the own station For one or more terminal devices that do not belong to the specific subscriber group of the handover source cell that has been deleted from the measurement exclusion list, the downlink signal quality measurement is set so that the cell is included in the downlink signal quality measurement target. Change
on the other hand,
When the terminal device to be handed over does not belong to the specific subscriber group of the handover source cell, and the value of the Cause field of the handover request message is preferentially connected to the terminal device to which the requested handover belongs to the specific subscriber group If the handover source cell is not registered in the measurement exclusion list, the handover source cell is registered in the measurement exclusion list in the case of a handover for separating a terminal device that does not belong to a specific subscriber group from the congested cell. Then, for one or a plurality of terminal devices connected to the own device and not belonging to the specific subscriber group of the handover source cell registered in the measurement exclusion list, the cell is excluded from the downlink signal quality measurement targets. The radio base station apparatus according to claim 8, wherein the setting of downlink signal quality measurement is changed.
When the connection request is received, it is determined whether the number of connections of the terminal device at that time has reached the maximum value of the device,
When the number of connections has reached the maximum value, the subscriber group ID reported from the terminal device is compared with the subscriber group ID set in the own device, so that the terminal device is the specific subscriber group of the cell. And whether it belongs to
If the terminal device notified by the connection request does not belong to the specific subscriber group of the cell, reject the connection request,
on the other hand,
When the terminal device notified by the connection request belongs to the specific subscriber group of the cell, it is determined whether or not the terminal device does not belong to the specific subscriber group,
If there is no connection of a terminal device that does not belong to a specific subscriber group, the connection request is rejected,
When there is a connection of a terminal device that does not belong to a specific subscriber group, one terminal device that does not belong to the connected specific subscriber group is selected, and a handover instruction for the terminal device that does not belong to the specific subscriber group is issued. The radio base station apparatus according to claim 9, wherein the radio base station apparatus performs the connection request of a terminal apparatus belonging to a specific subscriber group.

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