JP2994284B2 - Mobile communication system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication system including an exchange, a radio base station, and a mobile station. More particularly, the present invention suppresses an increase in load on the exchange due to the handoff control and instantaneously causes communication in the handoff control. The present invention relates to a mobile communication system configured to reduce a disconnection time.

[0002]

2. Description of the Related Art Conventionally, in a mobile communication system for providing mobile communication services such as a mobile phone and a mobile phone, a small zone configuration in which a service area is covered by a plurality of wireless zones has been adopted. If the mobile station moves away from the communicating radio base station while moving while receiving services from the mobile communication system, and the condition of the radio channel being used deteriorates, the other radio base station Switch to the wireless channel of and continue the communication. Such switching of the wireless channel during communication is called handoff.

[0003] With reference to FIG. 7, a conventional handoff control will be described. As shown in the figure, a plurality of wireless base stations are connected to the exchange via wired lines, and the wireless base stations and the mobile stations are connected by wireless lines. In such a system, handoff is performed in the following order while exchanging control signals between the mobile station, the exchange, and the radio base station. The mobile station determines the destination zone and outputs a handoff request to the exchange. In the exchange, the wired line is switched.
The wireless base station with which the mobile station communicates is switched to the handoff destination wireless base station. Release the wired line between the exchange and the handoff source radio base station. The wireless link between the handoff source wireless base station and the mobile station is released.

As described above, in a conventional mobile communication system, a plurality of radio base stations widely distributed in each region are accommodated in an exchange, and control signals are transmitted and received between the exchange, the radio base stations, and the mobile units. Handoff is realized by switching the wireless base station in communication with the switch of the exchange.

[0005]

For this reason, for example, when a microwave is used for a radio channel or when the size of a radio zone covered by a radio base station is reduced in an attempt to realize high-speed information transmission on a radio channel, Since the rate at which the mobile station moves to the adjacent zone increases, there is a problem that handoff frequently occurs and the control load on the exchange increases. Further, there is also a problem that a communication line is momentarily cut off due to a difference between the switching timing of the switch of the exchange and the switching timing of the radio base station of the mobile device, and the communication is momentarily interrupted.

Accordingly, the present invention suppresses an increase in the amount of handoff control in an exchange due to frequent handoffs associated with the establishment of a small radio zone, and furthermore, the switching timing of the switches of the exchange during handoff control and the movement of a mobile station. It is an object of the present invention to provide a mobile communication system in which an instantaneous interruption time of a communication line caused by a difference in switching timing between a mobile station and a radio base station is shortened.

[0007]

To achieve the above object, a mobile communication system according to the present invention comprises an exchange, a virtual zone control device connected between the exchange and a plurality of radio base stations, and A mobile base station and a mobile station, wherein packet information to which an address is added is used for transmission of information between the exchange and the plurality of base stations, wherein the virtual zone control device Has distribution means for distributing packet information transmitted from the exchange to the plurality of radio base stations, and multiplexing means for collectively transmitting packet information transmitted from the plurality of radio base stations to the exchange. The radio base station transmits the information to the mobile station when the address of the packet information received from the virtual zone control device corresponds to the mobile station connected to the mobile station. The address of the packet information received from the virtual zone control device corresponds to control information from another wireless base station for the own station, and the wireless channel management of the own station according to the control information. Means for updating information, and when a handoff request is received from the mobile device, a switching request signal for the handoff destination radio base station included in the handoff request is added with an address of a control signal for the radio base station. Means for transmitting the packet information to the virtual zone control device. The virtual zone control device is connected to the multiplexing unit and the distribution unit, extracts packet information having an address corresponding to a control signal between the radio base stations from the multiplexing unit, and transfers the packet information to the distribution unit. It has a transfer means.

Further, another mobile communication system according to the present invention comprises an exchange, a plurality of virtual zone controllers hierarchically connected between the exchange and a plurality of radio base stations, and a plurality of radio base stations. A mobile communication system comprising: a mobile device, wherein packet information to which an address is added is used for transmission of information between the exchange and the plurality of radio base stations, wherein a top layer of the virtual zone control device is provided. The virtual zone control device located in the distribution zone, distributing the packet information sent from the exchange to the virtual zone control device located immediately below, the packet information sent from the virtual zone control device located immediately below A multiplexing means for transmitting the signals to the exchange collectively; and an address connected to the multiplexing means and the distribution means, the address corresponding to a control signal from the multiplexing means to the radio base station. Transfer means for extracting the packet information to be transferred to the distributing means, and the other virtual zone control device transmits the packet information sent from the virtual zone control device located thereabove to the virtual zone located immediately therebelow. A control unit or a distributing means for distributing to the plurality of radio base stations, and a virtual zone control device located immediately below the virtual zone control device or a virtual zone control device located immediately above the packet information sent from the plurality of radio base stations. Multiplexing means for transmitting to the radio base station, the radio base station, if the address of the packet information received from the virtual zone control device corresponds to the mobile station connected to its own station, the radio base station Means for transmitting to the mobile station, and control of the address of the packet information received from the virtual zone control device from another radio base station to the own station. Means for updating the radio channel management information of its own station according to the control information, and a handoff destination included in the handoff request when the handoff request is received from the mobile station. Means for transmitting a switching request signal to the virtual base station to the virtual zone control device as packet information to which an address of a control signal for the wireless base station is added.

Distribution means for distributing information transmitted from the exchange to a plurality of radio base stations between the exchange and the radio base station, and multiplexing means for transmitting information transmitted from the plurality of radio base stations to the exchange collectively A virtual zone control device having a function of transmitting only information having a specified address to a mobile station through a specified radio line is provided to the radio base station so that the mobile device can communicate with the mobile station. When the mobile station moves between wireless zones accommodated in the virtual zone control device, the base station used for communication can be switched without operating the switch circuit of the exchange. This also allows the exchange to control the wireless zones controlled by the plurality of wireless base stations accommodated in the virtual zone control device collectively as one large virtual wireless zone. Even if the wireless zone controlled by the base station becomes smaller, it is possible to prevent an increase in handoff control in the exchange.

[0010]

FIG. 1 shows the configuration of an embodiment of the mobile communication system according to the present invention. In this figure, 200
Is a terminal communicating with the mobile device. Reference numeral 201 denotes an exchange, which accommodates a plurality of virtual zone control devices 202, which will be described later, and is connected to the terminal 200 through a switch (not shown). Reference numeral 202 denotes a virtual zone control device, which accommodates a plurality of wireless base stations 203. 20
Reference numerals 3-1 to 203-n denote wireless base stations that control wireless zones. Reference numeral 204 denotes a mobile device that can move freely within each wireless zone.

Also, 205 and 206 are terminals 20
0 and the upstream and downstream wired lines connecting the switch 201, 207 and 208 are downstream and upstream wired lines connecting the switch 201 and the virtual zone controller 202, 209-1 to 209- n and 210-
1 to 210-n are the respective radio base stations 203-1.
203-n and the above-mentioned virtual zone control device 202. Although only one virtual zone control device 202 is shown in this figure, a plurality of virtual zone control devices are actually connected to the exchange 201.

FIG. 2 is a diagram showing a configuration example of the virtual zone control device 202. In this figure, 300 accommodates a wired line 207 connected to the exchange 201,
An interface circuit for extracting packetized information sent via the wired line 207. Also,
Reference numeral 301 denotes a buffer circuit for temporarily storing packetized information.
0 and packetized information (for example, ATM cells) extracted by a signal separation unit 305 described later are used to multiplex and transmit the information to the radio base stations 203-1 to 203-n. Further, 302-1 to 302-n
Transmits the packetized information to the wired line 209, respectively.
-1 to 209-n. The packet information stored in the buffer 301 is simultaneously transmitted to each of the wireless base stations 203-1 to 203-n accommodated in the virtual zone control device 202 through the wired line interface circuits 302-1 to 302-n.

Reference numerals 303-1 to 303-n denote a wired line 210 from each of the radio base stations 203-1 to 203-n.
An interface circuit that extracts packetized information transmitted through -1 to 210-n and stores the information in the buffer 304. Reference numeral 304 denotes a buffer for storing the packetized information extracted by the interface circuits 303-1 to 303-n.
Further, reference numeral 305 denotes a signal separating circuit for extracting information having a specific address (for example, a signal of an address in the 200's).

The signal (the information having the specific address) extracted by the signal separating circuit 305 is stored in the buffer 301 and transmitted to the radio base stations 203-1 to 203-n. It can be used for communication between the radio base stations. Further, packetized information having other addresses is sent to the wired line interface 306. Reference numeral 306 denotes the packetized information (the information having the other addresses) received from the signal separating circuit 305 and the wired line 208.
Interface circuit for sending through In this way, by assigning a specific address to the packetized information, signals can be transferred between the plurality of wireless base stations 203-1 to 203-n without passing through the exchange 201.

The signal separating section 305 and the buffer 301 are provided at the radio base stations 203-1 to 203-3.
-N is provided to realize communication between the switch 201 and the switch 201, and a switch of the switch 201 is connected to a packetized information having a specific address received from the wire line 208 in advance. If switching to the line 207 has been set, it can be omitted. In this case, although the load on the exchange 201 increases, there is an advantage that the configuration of the virtual zone control device 202 can be simplified.

FIG. 3 shows the radio base stations 203-1 to 203-3.
-N shows a configuration example. The radio base station 203-1
To 203-n have the same configuration,
In this figure, description will be made with suffixes (-1 to n) omitted. In this figure, reference numeral 400 denotes an output unit (wireless transmission / reception units 401-1 to 401-m and the control device 403) designated in advance by the control device 403 according to the address of the packetized information received through the wired line 209. And a switch for outputting the corresponding packetized information. A packet signal having a specific address predetermined for a control signal is set to be output to the control device 403.
The switch 400 discards packetized information having an address not specified by the control device 403.

Reference numerals 401-1 to 401-m denote the mobile unit 2
04 and the wireless base station 203, a wireless channel 21
The wireless transmission / reception units connected by 1 and 212 respectively correspond to each wireless channel. Reference numeral 402 denotes the information received by the wireless transmission / reception units 401-1 to 401 -m and the information transmitted from the control device 403.
A buffer 403 for sending to the wireless base station 203 is a control device for controlling the wireless base station 203. Reference numeral 404 denotes a wireless channel management table that manages the use state of the wireless channel in order for the control device 403 to perform control, an example of which is described in the figure. As shown, the wireless channel management table 404 includes a wireless channel display unit 405 for identifying a wireless channel, a free / busy display unit 406 for displaying whether the wireless channel is used, and a wireless A packet address storage unit 407 for storing a packet address transmitted by a channel, a mobile unit number storage unit 408 for storing a mobile unit using the wireless channel, and a partner side when performing handoff control Each area of the wireless base station storage unit 409 for storing the wireless base station is provided.

FIG. 4 shows an example of a control sequence in the wireless communication system configured as described above. This figure shows a sequence of handoff control executed when the mobile station 204 moves from the zone of the radio base station 203-1 to the zone of the radio base station 203-2, and is described at the top of the figure. Communication information and control information between the mobile device 204, the handoff source radio base station 203-1, the handoff destination radio base station 203-2, the virtual zone control device 202, the exchange 201, and the terminal 200. Is described. In this figure, solid lines represent communication information,
Dashed lines represent control information. Time flows from top to bottom.

In the figure, 501 to 506 are all the control signals, 501 is a handoff request signal including information on a mobile station number and information on a radio base station of a handoff destination, and 502 is a mobile station number and a signal on a wired line. A switching request signal including information of a packet address at which the mobile station is transmitting and receiving information, 503 is a mobile station number and a switching instruction signal including wireless channel information used by a handoff destination wireless base station, and 504 is a mobile station number. A handoff execution signal including wireless channel information; 505, a switching completion signal including a mobile station number; and 506, a switching completion signal including a mobile station number. The mobile station number included in these signals is used to identify the target of the handoff control, and if the target of the handoff control can be identified, other information (for example, the wireless channel number currently being communicated, Packet address).

Hereinafter, the mobile station 204 is connected to the radio base station 203-
1 to the virtual zone control device 202 to the wireless zone of the wireless base station 203-2 during communication with the terminal 200 through the exchange 201, the operation of the present embodiment will be described with reference to FIGS. Will be described.

At the time of connection when the mobile device 204 and the terminal 200 start communication, information from the terminal 200 is transmitted from the exchange 201 between the control device 403 of the radio base station 203-1 and the exchange 201. (Here, the value of this address is A), the mobile station number, and the radio channels 211 and 212.
Are exchanged with each other and stored as in the wireless channel management table 404 shown in FIG. At this time, the control device 403 sets the switch 400 to the wired line 20.
If the address of the packet signal received in 9-1 is A, it is set so that the packet signal is switched to an output to which the wireless transmission / reception unit 401-1 controlling the wireless channels 211 and 212 is connected. .

In the state of communication, information from the terminal 200 is switched by the switch of the exchange 201 and sent to the virtual zone controller 202 through the wired line 207 at the address A. When the information from the terminal 200 is not packetized, an address is added by an exchange and packetized. The virtual zone control device 202 transfers the packet signal received by the wired line interface 300 to each of the wireless base stations 203-1 to 203-n through the wired lines 209-1 to 209-n.

The packet signal with the address A from the terminal 200 sent via the wired line 209-1 is transmitted to the switch 400 of the radio base station 203-1 through the radio channel 211 set in advance by the control device 403. The signal is sent to the controlling wireless transmitting / receiving unit 401-1 and sent to the mobile device 204 through the wireless channel 211. It should be noted that when sending a packet signal to the mobile device 204, it is obvious that the address can be removed and sent if it is not needed.

Terminal 2 sent over wired lines 209-2 to 209-n
The packet signal whose address is A from 00 is also sent to the radio base stations 203-2 to 203-n.
Since the output destination of the packet of the address A is not set in the switches 400 to n, the packet is discarded by the switch 400.

On the other hand, information from the mobile device 204 is received by the wireless transmission / reception unit 401-1 of the wireless base station 203-1 via the wireless channel 212. If the information from the mobile device 204 is not packetized, the wireless transmitting / receiving unit 40
The packet is packetized in 1-1, an address (here, address value A) is added, the packet is stored in a buffer 402, and sent to the virtual zone control device 202 through a wired line 210-1. The packet signal received by the virtual zone control device 202 passes through the buffer 304, the signal separation unit 305, and the wired line interface 306, and is sent to the exchange 202 via the wired line 208. In the exchange 201, the packet signal of the address A received on the wired line 208 is switched by a switch,
Sent to 0. Thus, the terminal 200 and the mobile device 20
No. 4 communication is being performed.

In this state, the radio channels 211 and 21
If the quality of 2 is worse than the preset value,
The mobile device 204 receives a control line transmitting ID information that allows each of the radio base stations 203-2 to 203-n to identify a base station, a pilot line transmitting a pilot signal, and the like. Radio base station that can receive well (here 2
03-2). The mobile station 204 that has selected the radio base station 203-2 that can receive the best condition is a handoff request signal including the ID information of the selected radio base station 203-2 in the control signal transmission portion of the radio channel 212. 501 to the wireless base station 203-1.

The radio base station 203-1 is a radio transmitting / receiving unit 40
When the handoff request signal 501 is received in 1-1, the handoff request signal 501 is sent to the control device 403-1. The control device 403-1 uses the number of the mobile station that has received the handoff request signal 501 as a key, and
4, the mobile station 204 obtains the packet address A used for communication, and stores the wireless base station 203-2 included in the handoff request signal 501 in the wireless base station storage unit 409. Also, from the ID information of the wireless base station 203-2 included in the handoff request signal 501, a packet address for a control signal of the wireless base station 203-2 stored in the control device 403 in advance (here, P202).
Request signal 502 including mobile station number information, packet address A, and information of its own wireless base station ID.
To the buffer 40 with the packet address set to P202.
2 to the virtual zone controller 202 through the wired line 210-1.

The switching request signal 502 received by the virtual zone controller 202 through the wired line 210-1 is input to the signal separating unit 305 through the wired line interface 303-1 and the buffer 304. Then, since the address is a preset 200s packet signal, it is extracted from the signal separation circuit 305 and sent to the buffer 301. The switching request signal 502 sent to the buffer 301 is sent to each of the wireless base stations 203-1 to 203 -n through the wired lines 209-1 to 209 -n.

The wireless base station 20 through the wired line 209-2
The switching request signal 502 received in 3-2 is switched by the switch 400-2 and sent to the control device 403-2 because the address is P202 whose address is previously set in the switch 400-2. Note that the wired lines 209-1 and 29-1
09-3 to 09-n, the radio base stations 203-1 and 203-3
.. N are discarded by the switch 400 because the switch 400 of each wireless base station is not set for the packet address P202.

The control device 403-2 of the radio base station 204-2, which has received the switching request signal 502, searches the radio channel management table 404 and selects the radio channel to be used from the vacant radio channels. Switching request signal 502
Are stored in the packet address storage unit 407, mobile unit number storage unit 408, and wireless base station storage unit 409 corresponding to the wireless channel selected in the wireless channel management table 404. At the same time as writing and empty / occupied display unit 406 is closed, switch 400-2 is set to wireless transmission / reception unit 40 corresponding to the wireless channel that has selected the packet of packet address A.
The switching to the connected output is set, and the selected wireless transmission / reception unit 401 is operated.

The packet signal of the packet address A is transmitted from the virtual zone controller 202 to each of the radio base stations 203-1 to 203-n.
Is transmitted to the wireless base station 203-2.
Will be transmitted on the wireless channel selected from. The control device 403-2 controls the switching instruction signal 503 including the information of the selected wireless channel and the mobile device number information of the mobile device 204.
Through the buffer 402 as a packet signal of a predetermined packet address (here, P201) of the radio base station 203-1.
02.

The switching instruction signal 503 is delivered to the control device 403 of the radio base station 203-1 in the same manner as the transmission of the other control signals described above. The control device 403-1 of the wireless base station 203-1 that has received the switching instruction signal 503 searches the wireless management table 404-1 from the number information of the mobile device 204 included in the switching instruction signal 503, and sends a wireless channel to the mobile device 204. A handoff execution signal 504 including the wireless channel information included in the switching instruction signal 503 through the switch 212
Is sent.

The mobile station 204, having received the handoff execution signal 504, switches to the designated radio channel while taking the timing of the radio channel. Since the same information as that transmitted on the radio channel 211 has already been transmitted from the base station of the switched radio channel 212 to the channel of the mobile device, the mobile device 204 does not interrupt the information from the terminal 200 without instantaneous interruption. You can receive. The information transmitted from the mobile station of the switched wireless channel 212 to the base station line is transmitted to the transmitting / receiving unit 201- of the wireless base station 203-2.
1 and is sent to the exchange 201 through the virtual zone controller 202 as a packet signal of the address A.
The packet signal of the address A received by the exchange 201 is switched and sent to the terminal 200, so that the information can be sent without an instantaneous interruption.

Mobile device 204 that has switched radio channels
Is a switching completion signal 50 including the number information of the mobile device 204.
5 is transmitted over the wireless channel 212. Switching completion signal 5
05 is received by the mobile station 204.
Channel management table 404-2 using the number information of
Is generated, a switching completion signal 506 having a packet address P201 corresponding to the obtained wireless base station 203-1 is created, and is passed through the virtual zone control device 202.
03-1.

The control device 403-1 of the radio base station 203-1 having received the switching completion signal 506 searches the radio channel management table 404-1 using the number information of the mobile station 204 as a key, and finds the corresponding radio channel. And the wireless transmission / reception unit 4 controlling the wireless channel 211
01-1 is stopped, the setting of the operation of the switch 400 for switching the packet of the address A is released, and the setting of the packet of the address A is discarded.

Further, when switching the radio channel, the mobile device 204 sends information indicating that it is the last information in the radio channel 211 which has been communicating so far, and switches the radio channel to the designated channel. Radio base station 20
When receiving the signal indicating the last information, the wireless transmission / reception unit 401-1 of 3-1 stops the operation and notifies the control device 403-1 of the completion of the handoff, and notifies the control device 403 -1 wireless channel management table 4
The corresponding wireless channel of No. 04 is vacated. By performing such control, the mobile device to the radio base station 203-2 to
Switching completion signals 505 and 50 between the wireless base stations 203-1
6 can be omitted.

As described above, the virtual zone control device 202
The handoff control can be realized independently of the control of the exchange 201 between the radio base stations accommodated in the base station. Therefore, the control load due to the handoff of the exchange can be reduced, and the radio base station used for communication by the mobile station can be switched without switching the switch of the exchange. It is possible to avoid instantaneous interruption during communication caused by the difference between the timing and the switching timing of the switch in the exchange.

In the above description, it has been described that the management of the radio channel is performed by each radio base station. However, the radio channels of the radio base stations accommodated in the virtual zone control device are managed in a unified manner. Obviously, a control device can be implemented in the virtual zone control device as well.

In FIG. 1, the virtual zone control device 202 is installed geographically between the exchange 201 and the radio base station 203. However, in the actual configuration, the exchange 20
Obviously, it can be installed at the same location as one or one of the plurality of wireless base stations 203. Further, it is apparent that a configuration in which the switching device or the radio base station is incorporated may be adopted.

In the above-described embodiment, only one virtual zone control device is provided between the exchange and the radio base station. However, a plurality of virtual zone control devices may have a hierarchical configuration. A second embodiment of the present invention in which virtual zone control devices are stacked in multiple stages will be described with reference to FIG.

In FIG. 5, 600 is a terminal, 601 is an exchange, and 602-1 to 602-1n have a function of transferring packet information having a predetermined address for communication between radio base stations, a distribution function, and a multiplex function. Virtual zone controllers 603-1 to n are virtual zone controllers having only distribution and multiplexing functions, 604-1 to n are radio base stations,
605 is a mobile device.

In the wireless communication system configured as described above, information from the terminal 600 is controlled by the virtual zone control device 602-1 connected to the exchange 601 under the same control as described above, to control each virtual subordinate under the control. The data is transferred to the zone control devices 603-1 to 603-1-n, is loaded on a wireless channel by the base station 604-1, and is transferred to the mobile device 605. Information from the mobile device 605 passes through the radio base station 604-1, passes through the multiplexing function of the virtual zone control device 603-1, the multiplexing function of the virtual zone control device 602-1, and the exchange 601. Similarly, the data is transferred to the terminal 600.

As described above, when the mobile station 605 moves to the radio zone controlled by the adjacent radio base station 604-2, the radio base station 604-1 and the radio base station 604-2.
Can perform handoff control by performing the same control as described above while communicating with each other via the transfer function of the virtual zone control device 602-1 through the virtual zone control device 603-1. It is possible.

The plurality of virtual zone control devices described above may be physically located anywhere. For example, the virtual zone control device 602 having the transfer function, the distribution function, and the multiplexing function is installed at the same place as the exchange 601, and the virtual zone control device 603 having only the distribution function and the multiplexing function is installed in the representative radio base station. Can also be placed.

By adopting such a multi-stage configuration, for example, when accommodating a wireless base station having a small traffic and a wide service area, a plurality of wired lines from the wireless base station are provided by the first-stage virtual zone control device. Can be concentrated on one line, so that the wireless base station 604 and the exchange 6
01 can be reduced as compared with the case of a single-stage configuration, and the cost of the mobile communication system can be reduced. Although the example of the two-stage configuration has been described in FIG. 5, it is apparent that the virtual zone control device 603 can be configured to be further stacked in multiple stages.

Further, in the present invention, by controlling the small zone as one large zone by the virtual zone control device, the shape of the virtual zone viewed from the exchange can be formed into a free shape as compared with the case where the virtual zone is constituted by a large zone. Therefore, by configuring the shape of the virtual zone in consideration of the moving direction and the traffic volume, the frequency of handoff control in the exchange can be reduced, and the control load due to handoff can be further reduced.

FIG. 6 shows a zone configuration example of the embodiment in which the virtual zone is configured in consideration of the moving direction. In the example shown in this figure, a plurality of wireless base stations having wireless zones on a road with a large traffic volume are arranged under one virtual zone control device, and a virtual zone having a shape corresponding to the moving direction of the mobile station is provided. Is composed. As a result, most of the handoff is in the virtual zone, and the load for handoff control in the exchange can be greatly reduced.

[0048]

As described above, according to the mobile communication system of the present invention, handoff between radio base stations accommodated in the virtual zone control device can be performed independently of control of the exchange. Therefore, it is possible to suppress an increase in the load on the exchange due to the handoff control. In addition, since handoff control can be realized without switching the switch of the exchange, communication is not interrupted instantaneously due to the difference between the switching timing of the switch of the exchange and the switching timing of the radio base station of the mobile station. Communication can be continued.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a configuration example of a first embodiment of a mobile communication system according to the present invention.

FIG. 2 is a diagram illustrating a configuration example of a virtual zone control device in the mobile communication system of the present invention.

FIG. 3 is a diagram illustrating a configuration example of a radio base station in the mobile communication system of the present invention.

FIG. 4 is a diagram showing an example of a control sequence of the mobile communication system of the present invention.

FIG. 5 is a diagram illustrating a configuration example of an embodiment in which a virtual zone control device has a multi-stage configuration.

FIG. 6 is a diagram illustrating an example of an embodiment in which a virtual zone is configured in consideration of a traffic volume and a moving direction of a mobile device.

FIG. 7 is a diagram for explaining handoff control according to the related art.

[Explanation of symbols]

200 terminal 201 exchange 202 virtual zone controller 203 wireless base station 204 mobile unit 205, 207, 209 downlink wired line 206, 208, 210 uplink wired line 211 downlink wireless channel 212 uplink wireless channel 300, 302, 303, 306 wired line interface 301, 304, 402 Buffer 305 Signal separation unit 400 Switch 401 Wireless transmission / reception unit 403 Control unit 404 Wireless channel management table 405 Wireless channel display unit 406 Free / busy display unit 407 Packet address storage unit 408 Mobile unit number storage unit 409 Wireless base station storage Unit 501 Handoff request signal 502 Switching request signal 503 Switching instruction signal 504 Handoff execution signal 505, 506 Switching completion signal

Continued on the front page (72) Inventor Motoharu Tanaka 1-1-2 Shinurashima-cho, Kanagawa-ku, Kanagawa-ku, Kanagawa Prefecture YRP Corporation Mobile Communication Technology Laboratory (72) Inventor Masaya Nishio Kanagawa-ku, Kanagawa-ku 1-32 Shinurashima-cho 32 RRP Co., Ltd. Mobile Communication Technology Laboratories (56) References JP-A-5-308677 (JP, A) JP-A-6-30466 (JP, A) (58) Field surveyed (Int.Cl. ⁶ , DB name) H04B 7/24-7/26 102 H04Q 7/00-7/38

Claims (3)

(57) [Claims] 1. An exchange, comprising: a virtual zone control device connected between the exchange and a plurality of radio base stations; a plurality of radio base stations; and a mobile station, wherein the exchange and the plurality of radios are provided. A mobile communication system in which packet information to which an address is added is used for transmission of information between base stations, wherein the virtual zone control device distributes packet information sent from the exchange to the plurality of wireless base stations. Distributing means, and multiplexing means for collectively sending packet information sent from the plurality of wireless base stations to the exchange, wherein the wireless base station has an address of the packet information received from the virtual zone control device. Means for transmitting the information to the mobile station when the mobile station is connected to the mobile station, and an address of the packet information received from the virtual zone control device. Means for updating the wireless channel management information of the own station according to the control information when it corresponds to control information from another wireless base station for the own station; and Means for transmitting to the virtual zone control device a switching request signal for the handoff destination radio base station included in the handoff request as packet information to which an address of a control signal for the radio base station is added. Characteristic mobile communication system. 2. The virtual zone control device is connected to the multiplexing unit and the distribution unit, extracts packet information having an address corresponding to a control signal between the radio base stations from the multiplexing unit, and extracts the packet information from the distribution unit. 2. The mobile communication system according to claim 1, further comprising a transfer unit for transferring data to the mobile communication system. 3. An exchange comprising: an exchange; a plurality of virtual zone controllers hierarchically connected between the exchange and a plurality of radio base stations; a plurality of radio base stations; And a mobile communication system in which packet information to which an address is added is used for transmission of information between the plurality of radio base stations, wherein the virtual zone control device located at the highest layer of the virtual zone control devices is Distribution means for distributing the packet information sent from the exchange to the virtual zone controller located immediately below; and multiplexing means for collectively sending the packet information sent from the virtual zone controller located immediately below to the exchange. , Which is connected to the multiplexing means and the distribution means, extracts packet information having an address corresponding to a control signal between the radio base stations from the multiplexing means, and The other virtual zone control device, the other virtual zone control device, the packet information sent from the higher virtual zone control device to the virtual zone control device or the plurality of wireless base stations located immediately below it Distribution means for distributing, and a multiplexing means for collecting packet information sent from the virtual zone control device located immediately below or the plurality of wireless base stations and sending it to the virtual zone control device located immediately above, The wireless base station, when an address of the packet information received from the virtual zone control device corresponds to a mobile station connected to the own station, means for transmitting the information to the mobile station; If the address of the packet information received from the zone control device corresponds to the control information for the own station from another wireless base station, the control Means for updating the wireless channel management information of the mobile station in response to the notification, and when receiving a handoff request from the mobile station, the mobile station transmits a switching request signal for the wireless base station of the handoff destination included in the handoff request to the wireless base station. Means for transmitting to the virtual zone control device as packet information to which an address of a control signal for a base station has been added.