WO2013136797A1 - Radio base station apparatus, lte mobile communication system, and mobility control method - Google Patents

Abstract

[Problem] A general LTE mobile communication system that performs handover controls has a possibility that the handover controls will fail. [Solution] Provided is a mobile communication system that implements handover controls, wherein: the radio base station apparatus of a handover source cell comprises a resource reserving means that informs, to the radio base station apparatus of a handover destination cell, resources to be reserved in advance and an identifier corresponding to the number of the resources prior to implementation of the handover control; and the radio base station apparatus of the handover source cell comprises a resource reservation executing means that, prior to implementation of the handover control, receives, from the radio base station apparatus of the handover source cell, the resources to be reserved in advance and the identifier corresponding to the number of the resources and reserves, as the resources to be used for the handovers, the resources which correspond to the identifier and the number of which is the same as said number of the resources in advance.

Description

Radio base station apparatus, LTE mobile communication system, mobility control method

The present invention relates to a radio base station apparatus, an LTE mobile communication system, and a mobility control method, and more particularly to a radio base station apparatus that performs handover control, an LTE mobile communication system, and a mobility control method.

In a mobile communication system (hereinafter referred to as “LTE mobile communication system”) to which LTE (Long Term Evolution) is applied, when a communicating terminal moves across cells, it is possible to move while maintaining the communication state. The handover control to perform is known. The base station of the cell before movement (hereinafter referred to as “movement source base station”) determines the start of handover control, and sends control information to the base station of the movement destination cell (hereinafter referred to as “movement destination base station”). Notice. The destination base station secures resources such as a communication band based on control information from the source base station, and performs handover control using the secured resources. The handover control is defined in the following prior art documents.

In addition, for the purpose of distributing the cell load of each base station, means for notifying service provision status and load information such as wireless / wired for each cell between base stations is also considered. A destination cell (hereinafter referred to as “handover destination cell”) can be determined using the status of the destination base station. Hereinafter, the cell before moving is referred to as a “handover source cell”.

However, a general LTE mobile communication system may fail handover control. The reason will be described below.

The destination base station notifies the source base station of the state of the cell when the status of the cell providing the service changes, or notifies the load information at a cycle requested by the source base station. That is, the movement-destination base station notifies its own situation asynchronously with the handover control of the movement-source base station. For this reason, the source base station may start the handover control before the latest status is notified from the destination base station, and the handover control may fail. For example, even if the destination base station has a shortage of resources due to congestion or the like, the source base station before being notified of the situation determines that the destination base station can control handover, and performs handover Control will start. As a result, the source base station cannot secure resources in the destination base station, and handover control fails. The LTE mobile communication system may fail in handover control because there is a possibility of performing handover control even in a situation where resources are insufficient in the destination base station.

Note that it is conceivable that the frequency at which the movement-destination base station notifies the movement-source base station is increased, or that the movement-source base station starts handover for a plurality of handover candidate destination cells at the same time. By using these methods, it is possible to prevent the source base station from starting handover in a state where the resources are insufficient, and it is possible to avoid handover failure. However, since these methods increase the amount of messages communicated between base stations, there is a possibility of constraining the network load.

An object of the present invention is to provide a radio base station apparatus, an LTE mobile communication system, and a mobility control method that solve the above problems.

To achieve the above object, a radio base station apparatus of the present invention is a radio base station apparatus of a handover source cell that performs handover control, and a resource that is secured in advance before performing the handover control, Resource securing means for notifying the radio base station apparatus of the handover destination cell of an identifier corresponding to the number of resources is provided.

In order to achieve the above object, a radio base station apparatus of the present invention is a radio base station apparatus of a handover destination cell that performs handover control, and prior to performing the handover control, the radio base station of the handover source cell Resource reservation execution means is provided for receiving a resource to be reserved in advance from an apparatus and an identifier corresponding to the number of the resources, and preallocating the resources corresponding to the identifier as resources for handover by the number of the resources.

In order to achieve the above object, the mobile communication system of the present invention is a mobile communication system that performs handover control, and the radio base station apparatus of the handover source cell secures in advance before performing the handover control. Resource securing means for notifying the radio base station apparatus of the handover destination cell of a resource to be performed and an identifier corresponding to the number of the resources, and the radio base station apparatus of the handover destination cell performs handover before performing the handover control. Resources to be reserved in advance from the radio base station apparatus of the original cell and identifiers corresponding to the number of the resources, and to reserve the resources corresponding to the identifiers in advance as resources for handover by the number of the resources A securing execution means is provided.

To achieve the above object, according to the mobility control method of the present invention, prior to performing the handover control, the radio base station apparatus of the handover source cell hands over the identifiers corresponding to the number of resources and the resources reserved in advance. This is a method in which the radio base station apparatus of the destination cell is notified, and the radio base station apparatus of the handover destination cell reserves in advance the resources corresponding to the received identifier as resources for handover by the number of the resources.

According to the present invention, the LTE mobile communication system can reduce handover control failures and further reduce the network load between base stations.

It is a block diagram which shows the structural example of the LTE mobile communication system in the 1st Embodiment of this invention. It is a figure for demonstrating operation | movement (operation | movement at the time of prior allocation) of the LTE mobile communication system in the 1st Embodiment of this invention. It is an example of the information regarding the resource which wants to secure in advance in the movement destination base station in the 1st Embodiment of this invention. It is a figure for demonstrating operation | movement (operation | movement at the time of handing over using a prior allocation resource) of the LTE mobile communication system in the 1st Embodiment of this invention. It is a figure for demonstrating operation | movement (operation | movement at the time of handing over without using a prior allocation resource) of the LTE mobile communication system in the 1st Embodiment of this invention. It is an example of the information required in order for the movement destination base station in the 1st Embodiment of this invention to extract a handover destination candidate cell. It is an example of the information (when considering the Carrier Aggregation function) related to resources to be secured in advance in the movement-destination base station according to the first embodiment of the present invention. It is a figure for demonstrating operation | movement (pre-allocation operation | movement in a movement origin base station) of the LTE mobile communication system in the 2nd Embodiment of this invention.

Next, embodiments of the present invention will be described in detail with reference to the drawings.

[First Embodiment]
[Description of configuration]
FIG. 1 is a block diagram showing a configuration example of an LTE mobile communication system according to the first embodiment of the present invention. As shown in FIG. 1, the LTE mobile communication system in the first embodiment includes at least a source base station A 101, a destination base station B 102, and a terminal 103. The source base station A 101 and the destination base station B 102 are connected to each other via a wired line, and the terminal 103 is connected to the source base station A 101 and the destination base station B 102 via a wireless line.

[Description of operation]
The operation at the time of handover from the source base station A101 to the destination base station B102 in the LTE mobile communication system according to the first embodiment of the present invention will be described using FIG. 2 to FIG.

FIG. 2 is a diagram for explaining the operation (operation at the time of prior allocation) of the LTE mobile communication system according to the first embodiment of the present invention. FIG. 3 is an example of information regarding resources that are to be reserved in advance in the movement-destination base station according to the first embodiment of the present invention. FIG. 4 is a diagram for explaining the operation of the LTE mobile communication system (operation when performing handover using a pre-allocated resource) in the first embodiment of the present invention. FIG. 5 is a diagram for explaining the operation of the LTE mobile communication system according to the first embodiment of the present invention (operation when performing handover without using a pre-allocated resource).

(1) Pre-allocation operation First, the source base station A101 performs an operation to confirm whether resources can be allocated in advance to the destination base station B102 prior to performing handover control. This operation will be described below with reference to FIG.

First, the source base station A 101 includes information 2202 regarding resources to be secured in advance in the destination base station B 102 (hereinafter referred to as “resource information to be secured in advance”) in the HANDOVER PREASSIGMENT REQUEST 2201, and the destination base station B 102 Send to. HANDOVER PREASSIGMENT REQUEST 2201 is a message from the source base station A101 to the destination base station B102.

As shown in FIG. 3, the resource information to be reserved in advance includes a resource ID indicating a resource to be reserved in advance, an ID indicating a handover destination cell to which a handover is to be performed, and the number of resources for which allocation is requested in advance. In the figure, an ID indicating a handover destination cell to be handed over is described as “ID of cell to be pre-allocated”, and the number of resources for which allocation is requested in advance is described as “number of allocated resources”. In FIG. 3, the number of allocated resources is the number of predetermined communication bands, but is not limited thereto. For example, the resource to be allocated in advance may be a processing unit that performs baseband processing. A predetermined communication band and resource information to be secured in advance are set in the source base station A 101 by the user of the present embodiment. The source base station A 101 can also transmit resource information to be secured in advance in the X2-AP: HANDOVER REQUEST instead of the HANDOVER PREASSIGMENT REQUEST. X2-AP: HANDOVER REQUEST is a known message notified from the source base station A 101 to the destination base station B 102 during handover control, and is defined in Non-Patent Document 4.

Next, the destination base station B102 that has received the HANDOVER PREASSIGMENT REQUEST 2201 recognizes the resource to be secured in advance from the resource information to be secured in advance. If the resource to be secured can be allocated in advance, the movement-destination base station B102 secures the resource and responds to the movement-source base station A101 with HANDOVER PREASSIGMENT REQUEST ACKNOWLEDGE 2203. HANDOVER PREASSIGMENT REQUEST ACKNOWLEDGE 2203 is a message indicating that allocation is possible.

Also, the source base station A 101 and the destination base station B 102 store the total number of resources secured in advance (hereinafter referred to as “pre-assigned resources”) as pre-assignable resource values.

(2) Determining whether or not to perform handover using a pre-allocation resource After that, the source base station A 101 that has decided to start the handover uses the resource allocated in advance according to the priority of the terminal 103, that is, the pre-allocation It is determined whether to perform handover using resources. The above-mentioned priority is determined using ARP (Allocation and Retention Priority) information, CQI (QoS Class Identifier) information, and the like of a bearer established for the terminal. For example, the source base station A 101 determines that the bearer whose delay permissible time recognized from the CQI is equal to or shorter than a predetermined permissible time is high priority in order to perform handover reliably. The source base station A 101 determines that the terminal 103 that communicates with the high priority bearer uses the pre-allocated resource to perform handover.

(3) Operation when Handover Using Preallocation Resource Operation using FIG. 4 will be described below with reference to FIG.

First, the source base station A 101 that has decided to perform handover using the pre-assigned resource includes the resource ID 2302 in the X2-AP: HANDOVER REQUEST 2301 and the resource information 2303 used in the request, and sends it to the destination base station B 102. Send. X2-AP: HANDOVER REQUEST 2301 is a message specified in Non-Patent Document 4, and is a message that the source base station A101 requests handover to the destination base station B102. The resource information 2303 described above is information used by the movement-destination base station B102 for performing handover. In order to cope with an unexpected service failure in the handover destination cell in real time, information necessary for the movement destination base station to extract the handover destination candidate cell in the X2-AP: HANDOVER REQUEST 2301 as described later. Can also be transmitted.

Next, the movement-destination base station B102 receives the resource ID 2302 and the resource information 2303 used in the request. The movement-destination base station B102 performs handover control on the resource indicated by the resource ID 2302 among the pre-allocation resources based on the resource information 2303 used in the request.

In addition, the movement-destination base station B102 notifies the movement-source base station A101 of the pre-allocable resource value obtained by subtracting the number of resources allocated by the handover control, using X2-AP: HANDOVER REQUEST ACKNOWLEDGE 2304. X2-AP: HANDOVER REQUEST ACKNOWLEDGE 2304 is a response message to X2-AP: HANDOVER REQUEST 2301 and is defined in Non-Patent Document 4. X2-AP: HANDOVER REQUEST ACKNOWLEDGE 2304 receives source base station A 101 and updates the pre-assignable resource value by subtracting the number of resources assigned by the handover control.

Next, the source base station A 101 uses the RRC: RRC Connection Reconfiguration 2305 defined in Non-Patent Document 2 to continue the handover process.

(4) Operation when Handover without Using Preallocated Resource The operation when performing handover without using the preallocated resource will be described with reference to FIG.

First, the source base station A 101 that has decided to perform the handover without using the pre-allocated resource, obtains information 2402 necessary for the destination base station B 102 to extract the handover destination candidate cell, as X2-AP: HANDOVER REQUEST 2401. Include in and send. FIG. 6 is an example of information 2402 necessary for extracting a handover destination candidate cell.

Next, the movement-destination base station B102 receives X2-AP: HANDOVER REQUEST 2401, and determines whether or not handover to the handover-destination cell is possible. If the destination base station B102 determines that handover to the cell is impossible, for example, if resources cannot be secured, the destination base station B102 searches the neighboring cell list of the cell and recognizes the neighboring cell. The movement-destination base station B102 uses the information 2402 for extracting the handover-destination candidate cell among the recognized neighboring cells, and a list of cells that can become the handover-destination cell (hereinafter referred to as “handover-destination cell candidate list”) To extract. The operation of extracting the handover destination cell candidate list will be described below with reference to FIG.

First, based on the estimated position information of the terminal and the estimated moving speed of the terminal shown in FIG. 6, the movement-destination base station B102 may or may not be within the area of the adjacent cell after a certain time. Determine whether. Then, the movement-destination base station B102 multiplies the reception quality / reception power of adjacent cells that may be in the area by a predetermined coefficient, and extracts adjacent cells that satisfy a predetermined threshold or more as a handover destination candidate list. . The predetermined coefficient and the predetermined threshold are set in the movement-destination base station B102 by the user of the present embodiment.

Next, the movement-destination base station B102 notifies the movement-source base station A101 that the handover destination cell candidate list 2404 and the requested handover to the handover destination cell are impossible. Further, the movement-destination base station B102 notifies the movement-source base station A101 of the reception quality and reception power of each neighboring cell listed in the handover-destination cell candidate list 2404 together with the handover-destination cell candidate list 2404. The handover destination cell candidate list 2404 and the like to be notified to the source base station A101 can be included in the X2-AP: HANDOVER REQUEST ACKNOWLEDGE 2403 defined in Non-Patent Document 4 and notified.

Next, the source base station A 101 that has received the handover destination cell candidate list 2404 recognizes the handover destination candidate cell from the handover destination cell candidate list 2404. If there is an appropriate cell among the handover destination candidate cells, the source base station A 101 recognizes that cell as the handover destination cell. For example, the source base station A 101 determines that there is an appropriate cell when there is a handover destination candidate cell that is equal to or higher than a predetermined value, has the best reception quality, or has the strongest reception power, and uses the handover destination candidate cell as the handover destination cell. Also good. Next, the source base station A 101 uses the RRC: RRC Connection Reconfiguration 2405 defined in Non-Patent Document 2 for the cell, and continuously performs a known handover process.

Also, the source base station A 101 lists cells that have not been handed over in the list 2407 of cells that have not been handed over in the handover destination cell candidate list 2404. The source base station A101 notifies the destination base station B102 of a list 2407 of cells that have not been handed over. The list 2407 of cells that have not been handed over can also be notified by X2-AP: HANDOVER CANCEL 2406 defined in Non-Patent Document 4.

(5) When responding to a failure or the like in real time When the source base station A101 performs the operation (3) described above, if an unexpected service failure or the like occurs in the destination base station B102, The above operation (4) is performed. As a result, the LTE communication system according to the present embodiment can perform a handover to another cell in which no service failure or the like has occurred, and avoid a handover failure.

The host apparatus monitoring the destination base station B102 provides a service to the source base station A101 so that the source base station A101 can recognize that a service failure has occurred in the destination base station B102. You may make it notify generation | occurrence | production of a failure etc. Further, the movement-destination base station B102 may directly notify the movement-source base station A101 that a service failure or the like has occurred.

The above operations (1) to (5) can also be applied to an LTE mobile communication system supporting 3GPP Release 10, and similar effects can be expected. That is, the same effect can be expected by applying the above operations (1) to (5) to the carrier aggregation function. FIG. 7 shows an example of information regarding resources that are to be reserved in advance in the destination base station in this case.

[Description of effects]
The LTE mobile communication system of the present embodiment can reduce handover control failures and further reduce the network load between base stations.

The reason why handover control failures are reduced is because the source base station reserves resources for handover in the destination base station in advance prior to handover control. Even if the movement-destination base station is in a congested state, handover control can be performed in a situation where resources are not insufficient, so that handover failures can be reduced. Moreover, the LTE mobile communication system of this Embodiment can prevent the generation | occurrence | production of the new message by failure of a handover by reducing the failure of a handover, and can reduce the network load between base stations.

Furthermore, the LTE mobile communication system according to the present embodiment calculates a candidate cell for a handover destination even when a service failure or the like occurs at the destination base station and it is determined that handover is not acceptable at the destination base station. To do. As a result, the LTE mobile communication system according to the present embodiment can continue handover, reduce handover failures, and suppress network load between base stations.

[Second Embodiment]
Next, a second embodiment of the present invention will be described.

[Description of configuration]
The configuration of the LTE mobile communication system according to the second embodiment of the present invention is the same as that of the LTE mobile communication system according to the first embodiment.

[Description of operation]
The LTE mobile communication system according to the first embodiment reserves resources in advance in the target base station B102, but does not calculate the amount of resources to be secured in advance, and thus reserves many resources unnecessarily. There may be a problem.

In order to avoid this problem, an operation for securing resources in advance more efficiently will be described below with reference to FIGS. FIG. 8 is a diagram for explaining the operation of the LTE mobile communication system (pre-allocation operation in the source base station) in the present embodiment.

First, a terminal 103 (hereinafter referred to as a UE) that has a call connection with the source base station A101 measures RSRP (Reference Signal Received Power) and RSRQ (Reference Signal Received Quality), and transmits it to the source base station A101. To do. Each UE may notify the source base station A101 by including RSRP or RSRQ in the Measurement Report 2204 that is a message from the UE to the source base station A101.

Next, the source base station A 101 extracts a handover candidate UE by using RSRP or RSRQ received from each UE. For example, the handover candidate UE may be extracted by the following operation.

A UE in which the RSRP of the cell of the movement-source base station A101 is lower than a predetermined threshold and the RSRP of the cell of the movement-destination base station B102 is higher than the predetermined threshold is set as a handover candidate UE.

Next, the source base station A101 calculates UEs whose resources should be secured in advance using the ARP value or CQI parameter among the extracted handover candidate UEs and the amount of resources (number of bearers and bandwidth). To do. An example of the calculation procedure is shown below.

Procedure 1: The source base station A101 acquires the capacity of the destination base station B102. As an acquisition method, the source base station A 101 may acquire from the destination base station B 102 using an operator input or a protocol message such as RESOURCE STATUS UPDATE defined in Non-Patent Document 4. The capacity may be, for example, the amount of free resources that are not used for call processing among all resources in the movement-destination base station B102. The amount of resources is the number of bearers and the amount of bandwidth.

Procedure 2: The source base station A 101 determines the amount of resources that should be pre-allocated to the destination base station B 102 from the capacity of the destination base station B 102 acquired in step 1. As a determination method, a value obtained by multiplying a capacity by a weighting coefficient or an input value by an operator can be used. Further, this determination method may be determined in consideration of the congestion status of the movement-destination base station B102.

Procedure 3: The source base station A 101 extracts UEs assigned to the resource amount to be requested acquired in Procedure 2, that is, the number of bearers and the bandwidth amount, as target UEs in the order of ARP values with higher priority. Note that a UE that exceeds the ARP threshold set in advance in the source base station A101 without extracting the number of bearers to be requested and the bandwidth may be the target UE. Further, the bearer types to be requested may be limited using CQI.

The source base station A 101 determines whether there is a difference between the pre-assignable resource value and the value calculated by performing steps 1 to 3 after performing steps 1 to 3. If there is a difference, the source base station A 101 performs the HANDOVER PREASSIGMENT procedure shown in FIG. 2, that is, the above-described (1) pre-allocation operation to update the pre-assignable resource value, and the destination base station Resources for the amount of resources are reserved in advance in B102. The source base station A101 can optimize resources reserved in advance at the destination base station B102 by periodically repeating the above-described operation shown in FIG. 8, and implement more efficient resource management. be able to.

[Description of effects]
The LTE mobile communication system according to the present embodiment can optimize resources to be secured in advance. The reason is that the LTE mobile communication system according to the present embodiment appropriately calculates the amount of resources that need to be secured in advance.

[Third Embodiment]
Next, a third embodiment of the present invention will be described.

[Description of configuration]
The configuration of the LTE mobile communication system according to the third embodiment of the present invention is the same as that of the LTE mobile communication system according to the first embodiment.

[Description of operation]
Prior to performing handover control, the radio base station apparatus of the handover source cell notifies the radio base station apparatus of the handover destination cell of resources to be reserved in advance and the number corresponding to the number of resources.

Prior to performing handover control, the radio base station apparatus of the handover destination cell receives an identifier corresponding to the resource and the number of resources to be secured in advance from the radio base station apparatus of the handover source cell, and sets the resource corresponding to the identifier. The number of resources is reserved in advance as resources for handover.

[Description of effects]
The LTE mobile communication system of the present embodiment can reduce handover control failures and further reduce the network load between base stations.

The embodiment described above is not limited to the embodiment, and various modifications can be made without departing from the scope of the invention in the implementation stage.

This application claims priority based on Japanese Patent Application No. 2012-060865 filed on March 16, 2012, the entire disclosure of which is incorporated herein.

101 Source base station A
102 Destination base station B
103 terminal 2201 HANDOVER PREASSIGMENT REQUEST
2202 Information on resources to be secured in advance 2203 HANDOVER PREASSIGMENT REQUEST ACKNOWLEDGE
2204 Measurement Report
2301 HANDOVER REQUEST
2302 Resource ID
2303 Resource information used in the request 2304 HANDOVER REQUEST ACKNOWLEDGE
2305 RRC Connection Reconfiguration
2401 HANDOVER REQUEST
2402 Information for extracting handover destination candidate cell 2403 HANDOVER REQUEST ACKNOWLEDGE
2404 Handover destination cell candidate list 2405 RRC Connection Reconfiguration
2406 HANDOVER CANCEL
2407 List of cells not handed over

Claims (10)

1. A radio base station apparatus of a handover source cell that performs handover control,
   Prior to performing the handover control, comprising resource securing means for notifying the radio base station apparatus of the handover destination cell of a resource to be secured in advance and an identifier corresponding to the number of the resources,
   A radio base station apparatus.
2. The radio base station apparatus includes a determination unit that determines whether to perform the handover control using the resource reserved in advance in the radio base station apparatus of the handover destination cell during the handover control,
   When it is determined that the resource used in advance is determined by the determination unit, at least the identifier is notified to the radio base station apparatus of the handover destination cell,
   When it is determined that the resource reserved in advance is not used by the determination unit, information necessary for extracting a handover destination candidate cell is notified to the radio base station apparatus of the handover destination cell, and then the handover destination cell When the handover destination candidate cell is notified from the radio base station apparatus, a new handover destination cell is selected from the handover destination candidate cell, and the handover control is performed on the selected new handover destination cell.
   The radio base station apparatus according to claim 1.
3. When the radio base station apparatus recognizes that a failure has occurred in the radio base station apparatus of the handover destination cell, in order to extract a handover destination candidate cell to the radio base station apparatus of the handover destination cell When necessary information is notified, and then when the handover destination candidate cell is notified from the radio base station apparatus of the handover destination cell, the new handover destination cell is selected from the handover destination candidate cell, and the new Performing the handover control in a handover destination cell;
   The radio base station apparatus according to any one of claims 1 and 2.
4. A radio base station apparatus of a handover destination cell that performs handover control,
   Prior to performing the handover control, a resource reserved in advance from the radio base station apparatus of the handover source cell and an identifier corresponding to the number of the resources are received, and the resources corresponding to the identifiers are equal to the number of the resources, Comprising resource securing execution means for securing in advance as a resource for handover;
   A radio base station apparatus.
5. When the identifier is received from the radio base station apparatus of the handover source cell during the handover control, the radio base station apparatus performs the handover control with a resource corresponding to the identifier.
   The radio base station apparatus according to claim 4.
6. The radio base station apparatus determines whether the handover control can be performed when receiving information necessary for extracting the handover destination candidate cell from the radio base station apparatus of the handover source cell during the handover control. When it is determined that the implementation is impossible, the handover destination candidate cell is extracted using information necessary for extracting the handover destination candidate cell and notified to the radio base station apparatus of the handover source cell.
   The radio base station apparatus according to any one of claims 4 to 5, wherein:
7. The radio base station apparatus detects a neighboring cell in which a terminal connected to the radio base station apparatus may be located after a predetermined time, and determines the reception quality or reception power of the neighboring cell. Extracting the neighboring cell whose weighted value is a predetermined value or more as the handover destination candidate cell;
   The radio base station apparatus according to claim 6.
8. A mobile communication system for performing handover control,
   The radio base station apparatus of the handover source cell is the radio base station apparatus according to any one of claims 1 to 3,
   The radio base station apparatus of the handover destination cell is the radio base station apparatus according to any one of claims 4 to 7.
   A mobile communication system.
9. The radio base station apparatus of the handover source cell acquires the capacity of the radio base station apparatus of the handover destination cell, sets a value obtained by multiplying the capacity by a predetermined number as a resource amount, and the handover destination cell The radio base station apparatus of the handover destination cell secures resources for the resource amount as resources for handover.
   The mobile communication system according to claim 8.
10. Prior to performing handover control, the radio base station apparatus of the handover source cell notifies the radio base station apparatus of the handover destination cell of the resource to be reserved in advance and the identifier corresponding to the number of the resources, and the handover destination cell The radio base station apparatus reserves in advance the resources corresponding to the received identifier as resources for handover by the number of the resources,
    A mobility control method characterized by the above.

Images