JP2004312241A - Wireless base station control apparatus, handover control method thereof, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wireless base station control apparatus capable of reducing occurrence of call interruption when a mobile terminal moves at a high speed through microcells. <P>SOLUTION: The wireless base station control apparatus 1 for controlling wireless base stations forming wireless communication cover areas comprising microcells instructs a wireless base station for managing cells to reserve a wireless communication band so as to attain wireless communication in three cells predicted as a succeeding movement destination to a movement destination cell from the movement destination cell to which the mobile terminal moves in the case of handover processing to the mobile terminal moving at a high speed thereby reducing occurrence of call interruption when the mobile terminal moves at a high speed. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a radio base station controller that controls a radio base station that performs radio communication with a mobile terminal, and more particularly to a handover (hereinafter, referred to as H / O) control method and a program thereof.
[0002]
[Prior art]
The amount of data communication in mobile communication is moving toward an ever-increasing capacity. To cope with this increase in capacity, the cell configuration also tends to shift from macro cells to micro cells.
[0003]
As an example of the current mobile communication, an overlay method in which a cell corresponding to a high-speed movement is a macro cell and a cell corresponding to a low-speed movement is a micro cell is used. If there is a mobile terminal that wants to perform new data communication after it exceeds the maximum data capacity that can be used, there is a high possibility that data communication will not be possible. There is a tendency to evolve.
[0004]
If the cell configuration becomes a microcell configuration, it becomes necessary to perform H / O control at the time of high-speed movement, which has been performed by the macrocell, by the microcell. Therefore, there is a possibility that the data communication coverage range of the wireless base station is narrowed, the cell penetrates the cell during high-speed movement, and the H / O processing cannot be completed in time and the data communication is forcibly terminated.
[0005]
Further, in the soft H / O control, radio waves of a plurality of radio base stations are secured to maintain communication. However, the radio waves of the radio base stations secured in the soft H / O control have low transmission power, that is, from the mobile terminal. Radio waves of the wireless base station in a short distance or in a good communication state are secured. Therefore, the cell secured by the soft H / O control is often present in the neighboring cells of the source cell, so that it may not be possible to cope with the H / O processing having directivity at the time of high-speed movement. Therefore, there is a possibility that the call may be disconnected even in the soft H / O control system.
[0006]
Currently, voice calls and short mails, which are often used in mobile terminals for wireless communication, have fewer calls disconnected during high-speed movements, but in the future, the volume of transmitted data, the data communication speed, and the usage environment will increase. Due to further fluctuations (such as microcell structure and speed improvement of mobile terminals), a problem that call disconnection increases during data communication during high-speed movement is expected.
[0007]
Techniques related to handover when a mobile terminal moves at high speed are disclosed in Patent Documents 1 to 3 below.
[0008]
[Patent Document 1]
JP 2000-217138 A
[Patent Document 2]
JP 2001-218244 A
[Patent Document 3]
JP-A-5-130671
[0009]
The invention disclosed in Japanese Patent Application Laid-Open No. 2000-217138 as Patent Document 1 discloses the following technology.
The position of the mobile terminal is specified by the position data extraction unit and the electric field strength data extraction unit, and the specified position is checked against each map data, from among a plurality of base stations that have established paths through diversity handover, and The path of a cell that is likely to move to is set, and no path is set for a cell that is unlikely to move.
[0010]
The invention disclosed in Japanese Patent Application Laid-Open No. 2001-218244 as Patent Document 2 discloses the following technology.
The mobile radio terminal is equipped with a FROM in which the relative position coordinates of a plurality of radio base stations are registered and a device for measuring a change rate of the electric field intensity. The current position, moving direction, and moving speed of the mobile radio terminal are estimated from the electric field strength and the relative position coordinates. When the electric field strength from the currently communicating wireless base station falls below the handover transition level, a plurality of wireless base stations in the moving direction are selected from the ROM, and one available wireless base station is selected and handed over. .
[0011]
The invention disclosed in Japanese Patent Application Laid-Open No. 5-130671 as Patent Document 3 discloses the following technology.
The mobile station is provided with a means for detecting the moving speed and a means for determining the moving speed, and transmits this information to the base station. Based on the information transmitted from the mobile station, the base station variably sets the transmission output of the base station according to the moving speed of the mobile station, and gives instructions to the surrounding base stations to form a composite cell, so that the base station moves. The station variably sets the cell size that can be used for communication in the same time zone. In other words, it is stated that a mobile station that is moving at high speed can reliably perform handover even during high-speed movement by moving a composite microcell group that has been made into a macrocell.
[0012]
[Problems to be solved by the invention]
However, even in the inventions disclosed in Patent Literatures 1 and 2, a cell in which a mobile terminal moves at a high speed and a path is not established before processing in a base station group extending the path by diversity handover is completed. And the problem that communication is disconnected cannot be solved.
[0013]
That is, the inventions disclosed in Patent Literatures 1 and 2 merely disclose a technique for securing a destination cell to which the mobile terminal will move next from the cell where the mobile terminal is currently located.
[0014]
Further, the invention disclosed in Patent Document 3 discloses a technology which is a reverse of the current technology of shifting the cell configuration from a macro cell to a micro cell in order to cope with an increase in the data amount.
[0015]
The present invention has been made in view of the above circumstances, and provides a radio base station control device, a handover control method, and a program that can reduce call disconnection when a mobile terminal moves at high speed in a microcell. The purpose is to do.
[0016]
[Means for Solving the Problems]
In order to achieve the above object, an invention according to claim 1 is a radio base station control device for controlling a radio base station forming a radio communication coverage area of a micro cell, wherein a handover process is performed for a mobile terminal that moves at high speed. Sometimes, a wireless base station that manages the mobile terminal moves to a wireless base station that manages the mobile terminal so that wireless communication can be performed in three cells that can be predicted to move next to the target cell. It is characterized by giving an instruction to secure a communication band.
[0017]
The invention according to claim 2 is the invention according to claim 1, further comprising a base station arrangement information table in which geographical arrangement information of a plurality of radio base stations controlled by the radio base station control device is registered. With the cell as the center, three cells that are geographically opposite to the source cell where the mobile device is currently located are three cells that can be predicted to move next to the destination cell.
[0018]
According to a third aspect of the present invention, in the first or second aspect, data transmitted from the mobile terminal is received via the radio base station, and the mobile terminal moves based on the data communication speed of the received data. Determine the speed, when it is determined that high-speed movement is performed, in addition to the cell of the destination, so that wireless communication is possible in three cells that can be predicted to move next to the cell of the destination, The wireless base station managing the cell is instructed to secure a wireless communication band.
[0019]
The invention according to claim 4 is a radio base station control device for controlling a radio base station forming a radio communication coverage area of a micro cell, and receives data transmitted from a mobile terminal via the radio base station. A communication speed determining unit that determines whether the mobile terminal is a terminal that requires a handover process from the data, and determines a data communication speed from the received data; Moving speed determining means for comparing the speed with a predetermined threshold value to determine whether the mobile terminal is moving at high speed, and registering geographical arrangement information of a plurality of radio base stations controlled by the radio base station controller. When the mobile terminal is determined to be moving at high speed by the moving speed determination means, the base station allocation information table is referred to, and the destination of the mobile terminal to which the mobile terminal moves is referred to. Cell detecting means for detecting three cells that can be predicted to move next to the destination cell, a destination cell detected by the cell detecting means, and predicting that the cell will move next to the destination cell. First handover processing means for connecting to a wireless base station managing the cells and instructing to secure a wireless communication band so that wireless communication in three cells is possible. .
[0020]
According to a fifth aspect of the present invention, in the fourth aspect of the present invention, when the moving speed determining means determines that the mobile terminal is not moving at a high speed, the wireless communication in the destination cell becomes possible. A second handover processing means for instructing to connect to a radio base station managing the cell and secure a radio communication band.
[0021]
The invention according to claim 6 is a handover control method in a radio base station controller that controls a radio base station forming a radio communication coverage area of a micro cell, wherein the handover processing is performed during a handover process for a mobile terminal that moves at high speed. The radio communication band is allocated to the radio base station that manages the mobile terminal so that the radio communication can be performed in three cells that can be predicted to move next to the target cell from the destination cell where the mobile terminal moves. It is characterized by instructing to secure.
[0022]
According to a seventh aspect of the present invention, in the invention of the sixth aspect, the radio base station control device registers a geographical location information of a plurality of radio base stations controlled by the radio base station control device. And the three cells that are geographically opposite to the source cell where the mobile device is currently located around the destination cell are three cells that can be predicted to move next to the destination cell. Features.
[0023]
According to an eighth aspect of the present invention, in the sixth or seventh aspect, data transmitted from the mobile terminal is received via the radio base station, and the mobile terminal moves based on the data communication speed of the received data. Determine the speed, when it is determined that high-speed movement is performed, in addition to the cell of the destination, so that wireless communication is possible in three cells that can be predicted to move next to the cell of the destination, The wireless base station managing the cell is instructed to secure a wireless communication band.
[0024]
The invention according to claim 9 is a handover control method in a radio base station control device that controls a radio base station forming a radio communication coverage area of a micro cell, wherein data transmitted from a mobile terminal is transmitted to a radio base station. And a communication speed determination step of determining whether the mobile terminal is a terminal requiring a handover process from the data, and a communication speed determination step of determining a data communication speed from the received data. The determined communication speed is compared with a predetermined threshold, and a moving speed determining step of determining whether the mobile terminal is moving at a high speed, and the moving speed determining step determines that the mobile terminal is moving at a high speed. Then, with reference to the base station arrangement information table in which geographical arrangement information of a plurality of radio base stations controlled by the radio base station controller is registered, Cell detection step of detecting three cells that can be predicted to move next to the destination cell from among the cells of the destination cell; a destination cell detected by the cell detection step; And a first handover processing step of instructing to secure a wireless communication band by connecting to a wireless base station managing the cell so that wireless communication in three possible cells is possible. I do.
[0025]
According to a tenth aspect of the present invention, in the invention of the ninth aspect, when it is determined in the moving speed determining step that the mobile terminal is not moving at high speed, wireless communication in the destination cell is enabled. And a second handover processing step of instructing connection with a radio base station managing the cell to secure a radio communication band.
[0026]
The invention according to claim 11 is a handover control program in a radio base station control device that controls a radio base station forming a radio communication coverage area of a microcell, wherein the handover control program performs a handover process on a mobile terminal that moves at high speed. The radio communication band is allocated to the radio base station that manages the mobile terminal so that the radio communication can be performed in three cells that can be predicted to move next to the target cell from the destination cell where the mobile terminal moves. It is characterized by instructing to secure.
[0027]
According to a twelfth aspect of the present invention, in the invention of the eleventh aspect, the radio base station control device registers a geographical location information of a plurality of radio base stations controlled by the radio base station control device. And the three cells that are geographically opposite to the source cell where the mobile device is currently located around the destination cell are three cells that can be predicted to move next to the destination cell. Features.
[0028]
According to a thirteenth aspect of the present invention, in accordance with the eleventh or twelfth aspect, data transmitted from the mobile terminal is received via the radio base station, and the mobile terminal moves based on the data communication speed of the received data. Determine the speed, when it is determined that high-speed movement is performed, in addition to the cell of the destination, so that wireless communication is possible in three cells that can be predicted to move next to the cell of the destination, The wireless base station managing the cell is instructed to secure a wireless communication band.
[0029]
According to a fourteenth aspect of the present invention, there is provided a handover control program in a radio base station control device for controlling a radio base station forming a radio communication coverage area of a microcell, wherein data transmitted from a mobile terminal is transmitted via a radio base station. The mobile terminal determines whether or not the mobile terminal is a terminal that requires handover processing from the data, and determines the data communication speed from the received data by a communication speed determination process and a communication speed determination process. The determined communication speed is compared with a predetermined threshold to determine whether the mobile terminal is moving at a high speed by the moving speed determination process of determining whether the mobile terminal is moving at a high speed and the moving speed determination process. The mobile terminal moves with reference to a base station arrangement information table in which geographical arrangement information of a plurality of radio base stations controlled by the radio base station controller is registered. A cell detection process for detecting three cells that can be predicted to move after the destination cell from the destination cell, a destination cell detected by the cell detection process, and a next destination cell after the destination cell Then, a first handover process for connecting to a wireless base station managing the cell and instructing to secure a wireless communication band is performed so that wireless communication can be performed in three predictable cells. Features.
[0030]
According to a fifteenth aspect of the present invention, in the invention of the fourteenth aspect, if it is determined by the moving speed determination processing that the mobile terminal is not moving at high speed, wireless communication in the destination cell becomes possible. And executing a second handover process for instructing to connect to a radio base station managing the cell and secure a radio communication band.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, embodiments of a radio base station controller, a handover control method thereof, and a program according to the present invention will be described in detail with reference to the accompanying drawings. 1 to 3 show an embodiment of a radio base station controller, a handover control method thereof, and a program according to the present invention.
[0032]
First, the configuration of the present embodiment will be described with reference to FIG. The radio base station controller 1 of the present embodiment has a function of performing H / O control of a specific mobile terminal from information of the radio base stations 9, 10, 11, and the like. I / O processing device (at low-speed movement) 3, speed determination device 4, H / O control device 5, base station arrangement information table device 6, H / O processing device (at high-speed movement) 7, H / O processing device O processing connection device 8.
[0033]
Main controller 2 exchanges control signals and data with the mobile terminal via the radio base station, and determines whether the mobile terminal is a terminal that requires a handover process. In addition, the communication speed of the data transmitted from the mobile terminal is measured, and the measurement result is transmitted to the speed determination device 4. Further, the main controller 2 selects from the information of the H / O controller 5 which of the H / O processor (during low-speed movement) 3 and the H / O processor (during high-speed movement) 7 to transmit data.
[0034]
The speed determination device 4 has a function of determining whether the moving speed is high or low based on the transmitted data communication speed, and transmits the determination result to the H / O control device 5.
[0035]
The H / O control device 5 obtains base station configuration information from the base station configuration information table device 6, and the main control device 2, the H / O processing device (during low-speed movement) 3, and the H / O processing device ( H / O control is performed on the high-speed movement 7) and the H / O processing connection device 8.
[0036]
The base station arrangement information table device 6 has a plurality of radio base stations controlled by the radio base station control device 1 and geographical arrangement information of cells adjacent to an outer cell that is not controlled.
[0037]
The H / O processing device (during low-speed movement) 3 performs the conventional H / O processing.
[0038]
In order to cope with high-speed movement, the H / O processing device (at high-speed movement) 7 communicates with the wireless base station of the current cell (source cell) of the mobile terminal obtained from the base station arrangement information table device 6 and H / O H / O processing for predicting the cell to be moved next to the destination cell based on the geographical arrangement information of the radio base station of the cell (destination cell) to be moved in the O processing and for securing resources in advance is added. I do.
[0039]
The H / O processing connection device 8 transmits a control signal and data transmitted / received to / from the radio base stations 9, 10, 11 and the like to the H / O processing device (during low-speed movement) 3 and the H / O processing device (during high-speed movement) 7 Is selected based on the signal from the H / O control device 5. Another function of the H / O processing connection device 8 is to connect the H / O processing device and a plurality of wireless base stations.
[0040]
The present embodiment having the above configuration determines whether the mobile terminal is moving at high speed or low speed from the data communication speed when H / O control is required in wireless communication of the microcell configuration. If the mobile terminal is moving at high speed, H / secures resources of the destination cell and secures resources of three cells that can be predicted to move next to the destination cell as shown in FIG. It is characterized by switching to O control. As a result, the time required for completing the H / O processing when the mobile terminal is moving at a high speed in the microcell can be reduced as compared with the time required for completing the conventional H / O processing. Therefore, the possibility that the connection can be maintained even when the call disconnection occurs increases, and the call disconnection can be reduced.
[0041]
In FIG. 1, the data communication speed is input from the main control device 2 to the speed determination device 4, and it is determined from the data communication speed whether the mobile terminal is moving at high speed. When it is determined that the mobile station is moving at high speed, the H / O control device 5 extracts the geographical location information of each wireless base station from the base station location information table device 6 and performs the conventional H / O processing. An instruction to switch from the H / O processing device (during low-speed movement) 3 to the H / O processing device (during high-speed movement) 7 used when the mobile terminal moves at high speed is issued. The H / O processing device (during high-speed movement) 7 uses the geographical location information of each base station obtained from the base station location information table device 6 to determine the resource of the cell that can be predicted to move next to the destination cell. By performing securing and H / O processing, call disconnection is reduced by H / O processing when moving at high speed in a microcell.
[0042]
When it is determined that the moving speed is moving at a low speed, the H / O control device 5 does not use the base station arrangement information table device 6 and performs the H / O processing as before. Control is performed to switch to the processing device (during low-speed movement) 3 or to perform H / O processing as it is.
[0043]
Next, the operation of the present embodiment will be described.
Referring to FIG. 1, when a mobile terminal is performing data communication, the radio base station controller 1 checks whether the mobile terminal requires H / O control, and the main controller 2 performs data communication. Take out the speed. The data communication speed is classified by a certain threshold value, and it is determined that the mobile terminal is moving at high speed or at low speed.
[0044]
Taking W-CDMA as an example, the data communication speed varies depending on the environment in which the mobile terminal is used. Up to 1.5 Mbps for fixed-point data communication, up to 348 kbps for low-speed mobile data communication, and up to 348 kbps for high-speed mobile data communication. Data communication speeds of up to 144 kbps are possible. Assuming that the data communication speed is a service dynamically corresponding to the moving speed, a mobile terminal communicating at a data communication speed of 348 kbps or more moves at a low speed, and a mobile terminal communicating at a data communication speed of 144 kbps or less moves at a high speed. Can be considered to be. If the threshold is set to 144 kbps, it becomes possible to transmit the data communication speed from the main control device 3 to the speed determination device 4 and determine whether the mobile terminal moves at a low speed or at a high speed based on whether the speed is 144 kbps or more. .
[0045]
When the H / O control becomes necessary, the H / O control device 5 to which the moving speed determination result is transmitted is used when the mobile terminal is moving at a low speed with the base station arrangement information table device 6 when the mobile terminal is moving at a high speed. The H / O processing device (during high-speed movement) 7 is not used, and the main controller 2, the H / O processing device (during low-speed movement) 3 used during low-speed movement, and the H / O processing connection device 8 are used. Conventional H / O control is performed by the main control device 2 and the H / O processing device (during low-speed movement) 3, and the H / O processing connection device 8 includes the H / O processing device (during low-speed movement) 3 and the radio base station 9. , 10 and 11 are connected.
[0046]
When the mobile terminal is moving at high speed, it can be predicted that the mobile terminal will move to the next position from the base station configuration information table device 6 based on the configuration information of the radio base station of the destination cell and the radio base station where the mobile terminal currently exists. The wireless base station of one destination cell is determined and transmitted to the H / O processing device (during high-speed movement) 7 used during high-speed movement. The prediction method is that the mobile terminal is moving at high speed, so that the moving characteristics of the object moving at high speed keep the straightness within the coverage area of the micro cell level, and the geographical location of the source cell is centered on the destination cell 3 are determined (the B cells shown in FIG. 2). In addition to securing resources of the destination cell performed in the conventional H / O processing, processing for simultaneously securing resources of three cells determined there is added at the time of high-speed movement. When the mobile terminal moves at high speed, control signals and data handled by the main controller 2 are transmitted to the H / O processing device (at high speed movement) 7 and used at the time of low speed movement (at low speed movement). 3 is not used. In the H / O processing device (at the time of high-speed movement) 7 used at the time of high-speed movement, the H / O control device 5 takes out the information based on the information of the base station arrangement information table device 6 in addition to the conventional H / O processing. Resources are secured in advance for the radio base stations of the three destination cells predicted to move after the destination cell. The H / O processing connection device 8 connects the H / O processing device (during high-speed movement) 7 to a large number of radio base stations 9, 10, 11, etc. The H / O control at the time of high-speed movement is performed on the predicted wireless base stations of the three destination cells.
[0047]
If the radio base station 9 is centered on the radio base station of the source cell, the radio base station 10 is the radio base station of the destination cell, and the radio base station 11 is centered on the radio base station 10, the radio base station 9 is geographically opposed to the radio base station 9. If the mobile terminal moves at a low speed, the radio base station controller 1 performs the conventional H / O processing without securing the resources of the radio base station 11 if the mobile terminal moves at a low speed. 9 and the radio base station 10. When the mobile terminal moves at a high speed, the radio base station controller 1 uses the base station arrangement information table device 6 based on the information of the radio base station 9 where the mobile terminal currently exists and the base station 10 of the H / O destination. From the above, two radio base stations 11 and two other radio base stations existing on the opposite side of the radio base station 9 when the radio base station 10 is geographically centered are determined, and a total of three radio base stations are determined to secure resources. At the same time, H / O processing is performed between the wireless base station 9 and the wireless base station 10.
[0048]
Next, the operation procedure of the present embodiment will be described with reference to the flowchart shown in FIG.
When there is a data communication request from the mobile terminal, resources necessary for communication are secured to the radio base station controller 1 through the radio base stations 9, 10, and 11, and a communication connection operation is performed (step in FIG. 3). A1 and A2). After the data communication connection is completed, if the mobile terminal performs data communication and ends data communication without the need for H / O processing, a request for data communication disconnection is issued from the mobile terminal and the radio base stations 9, 10, 11 The wireless base station controller 1 performs a disconnection process to release resources and terminate data communication (steps A3, A4, and A5).
[0049]
When the mobile terminal is performing data communication while moving, H / O processing is required in the overreach range of the base coverage (step A6). At this point, the data communication speed that can be extracted from the main controller 2 is sent to the speed judging device 4 to judge whether the moving speed of the mobile terminal is low speed or high speed (step A7). At the time of low-speed movement, the conventional H / O processing is performed as described above to maintain the data communication connection and release the resources of the source cell (steps A9, A10 and A11).
[0050]
When the speed determination device 4 determines that the mobile terminal is moving at a high speed, the H / O control device 5 changes the H / O processing (step A8). The main controller 2 changes the flow of control signals and data, and the H / O processing connection device 8 connects the processing device selected from the H / O processing device 3 or 7 to the radio base stations 9, 10, and 11. I do. The H / O processing device used during high-speed movement (during high-speed movement) 7 secures resources of the destination cell (step A12). Further, the information of the three wireless base stations predicted to move next to the destination wireless base station is extracted from the base station arrangement information table device 6, and the H / O processing device (during high-speed movement) 7 extracts the information of the three wireless base stations. The station resources are secured (step A13). In this state, H / O processing is performed to maintain the connection of data communication, release the resources of the source cell, and further use the resources of two unused radio base stations among the predicted three radio base stations. Release (steps A14 and A15).
[0051]
As described above, in the present embodiment, it is assumed that the conventional H / O processing is performed when the mobile terminal is moving at a low speed, and that the object has a straight traveling property based on the moving characteristics when the object moves at a high speed when the mobile terminal is moving at a high speed. By adding processing for securing resources of three cells that can be predicted to move next to the destination cell to the H / O control system of the radio base station controller, when the mobile terminal moves at high speed in the micro cell, Can be reduced.
[0052]
The above-described embodiment is a preferred embodiment of the present invention. However, the present invention is not limited to this, and various modifications can be made without departing from the scope of the present invention. Further, the embodiment according to the handover control program of the present invention can be realized by storing a program for controlling each unit shown in FIG. 1 in accordance with the flow shown in FIG. 3, and operating each unit in accordance with this program.
[0053]
【The invention's effect】
As is clear from the above description, the present invention performs a conventional handover process when the mobile terminal is moving at a low speed, and when the mobile terminal is moving at a high speed, the object has a straightness from the moving characteristics when the object moves at a high speed. The radio base station control device executes a process of securing resources of three cells that can be predicted to move next to the target cell assuming that the radio base station controller moves. Therefore, call disconnection when the mobile terminal moves at high speed in the micro cell can be reduced.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an embodiment according to the present invention.
FIG. 2 is a diagram for explaining cells selected during high-speed movement.
FIG. 3 is a flowchart showing an operation procedure.
[Explanation of symbols]
1 Radio base station controller
2 Main controller
3 H / O processing device (during low-speed movement)
4 Speed judgment device
5 H / O control device
6. Base station arrangement information table device
7 H / O processing unit (during high-speed movement)
8 H / O processing connection device
9, 10, 11 wireless base stations

Claims (15)

A radio base station controller that controls a radio base station forming a radio communication coverage area of a microcell,
At the time of a handover process for a mobile terminal performing high-speed movement, from the cell to which the mobile terminal moves, wireless communication can be performed in three cells that can be predicted to move next to the target cell. A radio base station controller that instructs a radio base station that manages the cell to secure a radio communication band. Having a base station arrangement information table registered geographical arrangement information of a plurality of radio base stations controlled by the radio base station control device,
The three cells which are geographically opposite to the source cell where the mobile device is currently located around the destination cell are three cells which can be predicted to move next to the destination cell. The radio base station controller according to claim 1. The mobile terminal receives data transmitted from the mobile terminal via the radio base station, determines the moving speed of the mobile terminal from the data communication speed of the received data, and determines that the mobile terminal is moving at high speed. Instructs a wireless base station managing the cell to secure a wireless communication band so that wireless communication can be performed in three cells that can be predicted to move next to the destination cell in addition to the previous cell. The radio base station controller according to claim 1 or 2, wherein: A radio base station controller that controls a radio base station forming a radio communication coverage area of a microcell,
Data transmitted from the mobile terminal is received via the radio base station, and it is determined from the data whether the mobile terminal is a terminal that requires a handover process, and data communication of the data communication is performed based on the received data. Communication speed determining means for determining a speed;
A moving speed determining unit that compares the communication speed determined by the communication speed determining unit with a predetermined threshold value and determines whether the mobile terminal is moving at a high speed.
A base station arrangement information table in which geographical arrangement information of a plurality of wireless base stations controlled by the wireless base station control device is registered,
When it is determined that the mobile terminal is moving at a high speed by the moving speed determination means, the mobile terminal refers to the base station location information table, and from the cell to which the mobile terminal moves, Cell detection means for detecting three cells that can be predicted to move next;
A wireless base station that manages the destination cell detected by the cell detection unit and a wireless base station that manages the three cells that can be predicted to move next to the destination cell; First handover processing means for instructing connection and securing a wireless communication band;
A radio base station controller comprising: When it is determined by the moving speed determination means that the mobile terminal is not moving at high speed,
A second handover processing means for instructing to connect to a wireless base station managing the cell and to secure a wireless communication band so that wireless communication in the destination cell is enabled. The radio base station controller according to claim 4. A handover control method in a radio base station control device that controls a radio base station forming a radio communication coverage area of a microcell,
At the time of a handover process for a mobile terminal performing high-speed movement, from the cell to which the mobile terminal moves, wireless communication can be performed in three cells that can be predicted to move next to the target cell. A handover control method, comprising instructing a wireless base station that manages the cell to secure a wireless communication band. The radio base station controller,
Having a base station arrangement information table registered geographical arrangement information of a plurality of radio base stations controlled by the radio base station control device,
The three cells which are geographically opposite to the source cell where the mobile device is currently located around the destination cell are three cells which can be predicted to move next to the destination cell. 7. The handover control method according to claim 6, wherein: The mobile terminal receives data transmitted from the mobile terminal via the radio base station, determines the moving speed of the mobile terminal from the data communication speed of the received data, and determines that the mobile terminal is moving at high speed. Instructs a wireless base station managing the cell to secure a wireless communication band so that wireless communication can be performed in three cells that can be predicted to move next to the destination cell in addition to the previous cell. 8. The handover control method according to claim 6, wherein: A handover control method in a radio base station control device that controls a radio base station forming a radio communication coverage area of a microcell,
Data transmitted from the mobile terminal is received via the radio base station, and it is determined from the data whether the mobile terminal is a terminal that requires a handover process, and data communication of the data communication is performed based on the received data. A communication speed determining step of determining a speed;
Comparing the communication speed determined by the communication speed determination step with a predetermined threshold value, and a moving speed determination step of determining whether the mobile terminal is moving at a high speed;
When it is determined that the mobile terminal is moving at a high speed in the moving speed determination step, a base station arrangement information table in which geographical arrangement information of a plurality of radio base stations controlled by the radio base station controller is registered. A cell detection step of detecting three cells that can be predicted to move next to the destination cell from the destination cell to which the mobile terminal moves,
The destination cell detected by the cell detection step, and a wireless base station managing the cell so that wireless communication can be performed in three cells that can be predicted to move next to the destination cell; A first handover processing step of instructing to connect and secure a wireless communication band;
A handover control method comprising: When it is determined that the mobile terminal is not moving at high speed by the moving speed determination step,
A second handover processing step of instructing to connect to a wireless base station managing the cell and secure a wireless communication band so that wireless communication in the destination cell is enabled. The handover control method according to claim 9. A handover control program in a radio base station control device that controls a radio base station forming a radio communication cover area of a microcell,
At the time of a handover process for a mobile terminal performing high-speed movement, from the cell to which the mobile terminal moves, wireless communication can be performed in three cells that can be predicted to move next to the target cell. A handover control program for instructing a radio base station managing the cell to secure a radio communication band. The radio base station controller,
Having a base station arrangement information table registered geographical arrangement information of a plurality of radio base stations controlled by the radio base station control device,
The three cells which are geographically opposite to the source cell where the mobile device is currently located around the destination cell are three cells which can be predicted to move next to the destination cell. The handover control program according to claim 11, wherein The mobile terminal receives data transmitted from the mobile terminal via the radio base station, determines the moving speed of the mobile terminal from the data communication speed of the received data, and determines that the mobile terminal is moving at high speed. Instructs a wireless base station managing the cell to secure a wireless communication band so that wireless communication can be performed in three cells that can be predicted to move next to the destination cell in addition to the previous cell. 13. The non-transitory computer-readable storage medium according to claim 11, further comprising: A handover control program in a radio base station control device that controls a radio base station forming a radio communication coverage area of a microcell,
Data transmitted from the mobile terminal is received via the radio base station, and it is determined from the data whether the mobile terminal is a terminal that requires a handover process, and data communication of the data communication is performed based on the received data. Communication speed determination processing for determining the speed;
Comparing the communication speed determined by the communication speed determination process with a predetermined threshold, and determining whether or not the mobile terminal is moving at high speed;
When it is determined that the mobile terminal is moving at a high speed by the moving speed determination process, a base station arrangement information table in which geographical arrangement information of a plurality of radio base stations controlled by the radio base station controller is registered. A cell detection process for detecting three cells that can be predicted to move next to the destination cell from a destination cell to which the mobile terminal moves,
The destination cell detected by the cell detection process, and a wireless base station managing the cell so that wireless communication can be performed in three cells that can be predicted to move next to the destination cell; A first handover process for instructing connection and securing a wireless communication band;
A handover control program characterized by executing: When it is determined that the mobile terminal is not moving at high speed by the moving speed determination process,
And executing a second handover process for instructing to secure a wireless communication band by connecting to a wireless base station managing the cell so that wireless communication in the destination cell is enabled. The handover control program according to claim 14.

Images