JP2001128237A - Wireless communication system controller - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wireless communication system controller that realizes a flexible service to quickly recover the service when the excellent service is disabled or difficult due to a fault in a base station or a temporarily rapid increase in traffic. SOLUTION: The wireless communication system controller is provided with a management center 20 connected to each system. The management center 20 is provided with a base station database that stores information of a base station 12 of each system, a borrowing base station selection means that selects the base station 12 of a borrowing destination system, and a function revision instruction means that transmits a borrow request related to the selected base station 12 to a control server 11 of a system of a borrowing destination, and transmits a function revision instruction to the selected base station 12 when permission is received. A wireless base station 12 of the borrowing destination is provided with a multi-mode transmission and reception means. A programmable device, a memory means that stores a software module, a module changeover means that selects the software module controlling the programmable device in response to the function revision instruction means and a protocol conversion means.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to a radio communication system control device used for controlling a radio communication system that provides a mobile communication service such as PDC and PHS.

[0002]

2. Description of the Related Art In a wireless communication system for providing a mobile communication service, traffic in a certain area (traffic) is required.
Increases, the probability that a wireless channel available for communication becomes vacant in that area decreases, and the quality of service decreases (call loss rate increases). Therefore, the wireless communication carrier that owns the wireless communication system needs to install a new base station or add a transceiver in the existing base station in an area where traffic is heavy in order to reduce congestion and improve the quality of service. And the equipment will be strengthened.

When a failure occurs in a base station due to a disaster or other causes, the quality of service is greatly reduced in the vicinity of the base station, so that it is necessary to repair the failure immediately.
That is, the communication carrier goes to the area where the failed base station exists, and repairs the base station or replaces the equipment.

[0004]

As described above, when a failure occurs in a base station of a wireless communication system, a communication carrier owning the failure goes to the failure area and reinstalls or repairs the base station. Will do. However, until the re-installation or repair of the base station is completed, the mobile communication service cannot be used at all in an area covered by only the failed base station.

[0005] When a congestion area occurs due to an increase in traffic, a communication carrier needs to install a new base station or add communication equipment of an existing base station. However, equipment changes such as the installation of a new base station or the expansion of communication equipment impose a heavy burden on construction and the like, and in fact, it takes an enormous amount of time and cost. Therefore, it is not possible to quickly respond to a temporary increase in traffic such as an event held by changing equipment.

[0006] By the way, there are various types of mobile communication services at present, and various telecommunications carriers each have one.
It has a wireless communication system that supports one or more types of mobile communication services. The wireless communication systems corresponding to the respective mobile communication services are independent of each other, and base stations belonging to the respective systems are installed in respective areas within the service area.

Therefore, a plurality of base stations belonging to different types of systems are often installed in the same area. In FIG. 10, one wireless communication system (A)
And a base station (B) belonging to another wireless communication system (B) are located close to each other. The two wireless communication systems (A, B) are independent of each other and provide different types of services. Accordingly, one wireless communication terminal (A) can receive the mobile communication service using the base station (A), but cannot use the base station (B).

For this reason, if the base station (A) breaks down, for example, the wireless communication terminal (A) provides mobile communication service in this area until the owning carrier completes the repair. I can't. In addition, if the traffic of the wireless communication system (A) increases and no free channel exists in the base station (A), a call loss from the wireless communication terminal (A) results in a call loss. Until it is possible, the wireless communication terminal (A) cannot receive the mobile communication service in this area.

According to the present invention, when it becomes impossible or difficult to provide a good wireless communication service due to a failure of a base station or a temporary increase in traffic, a flexible wireless communication service can be quickly restored. It is an object of the present invention to provide a wireless communication system control device which realizes a wireless communication service.

[0010]

A wireless communication system control device according to the first aspect utilizes independent first and second wireless communication systems of different types provided so as to be interconnected with each other. Each of the first wireless communication system and the second wireless communication system includes at least one wireless base station capable of performing wireless communication with a predetermined mobile communication terminal and a control server that controls each system; A wireless communication system control device for changing a function of at least a part of a wireless base station belonging to a second wireless communication system when one wireless communication system satisfies a specific condition, wherein the first wireless communication system And the second
A management center connected to both of the wireless communication systems is provided, the management center includes a base station database holding information on each wireless base station belonging to the second wireless communication system, and a first wireless communication system. When the communication system satisfies a specific condition, one of the second wireless communication systems corresponding to the position of the specific wireless base station of the first wireless communication system.
Borrowing base station selecting means for selecting one of the radio base stations from the base station database, and a borrowing request relating to the radio base station selected by the borrowing base station selecting means to a control server of the second wireless communication system. And a function change instructing unit for sending a function change instruction to the selected wireless base station when permission is received from the server, wherein at least the wireless base station belonging to the second wireless communication system includes a plurality of wireless base stations. A multi-mode transmission / reception unit having an antenna and a power supply line corresponding to transmission / reception of radio signals of a frequency; and a programmable device connectable to the multi-mode transmission / reception unit and capable of programming various functions such as modulation / demodulation and filters required for communication. , Holding at least one software module for controlling the programmable device Stage, module switching means for switching a software module for controlling the programmable device in response to a function change instruction sent by the function change instruction means of the management center, and protocol conversion for mutually converting a plurality of types of communication protocols. Means is provided.

According to the first aspect, at least the radio base station belonging to the second radio communication system can change the frequency, modulation method, communication protocol, and the like used for the radio communication by switching the software module. Therefore, it is possible to use the wireless base station of the second wireless communication system as the wireless base station of the first wireless communication system.

[0012] When the first wireless communication system satisfies a specific condition, the borrowed base station selecting means of the management center operates the first wireless communication system.
Selecting one of the wireless base stations of the second wireless communication system corresponding to the position of the specific wireless base station of the wireless communication system from the base station database; Is transmitted to the control server of the second wireless communication system, and when permission is received from the control server, an instruction to change the function to the selected wireless base station is transmitted.

In the radio base station receiving this instruction,
Module switching means switches a software module for controlling the programmable device so as to perform the same function as the wireless base station of the first wireless communication system.
For example, when a mobile communication terminal (such as a mobile phone) associated with a service of the first wireless communication system is used, the first wireless communication system in which the current location of the mobile communication terminal is a service area is used. If the radio base station is out of order, the mobile communication terminal cannot communicate with the first radio base station and cannot receive service. However, the function of the second wireless base station of the second wireless communication system existing near the first wireless base station is changed in advance so as to perform the same function as the wireless base station of the first wireless communication system. In this case, the mobile communication terminal can receive a service provided by the first wireless communication system using the second wireless base station.

That is, when it becomes impossible or difficult to provide a good wireless communication service due to a failure of a wireless base station or a temporary sudden increase in traffic, a wireless base station of another wireless communication system is temporarily replaced. By borrowing it, the wireless communication service can be quickly restored. Of course, if the wireless base station of the first wireless communication system is configured to be able to be borrowed as the wireless base station of the second wireless communication system, the mutual communication between the first wireless communication system and the second wireless communication system is established. Lend and borrow a wireless base station. It is also possible to rent and borrow a wireless base station between three or more wireless communication systems.

According to a second aspect of the present invention, in the wireless communication system control device according to the first aspect, when a borrowing request from the control server of the first wireless communication system to the management center is issued, the borrowing base station selecting means is provided with the first borrowing base station selecting means. Of the second wireless communication system corresponding to the position of the specific wireless base station of the first wireless communication system.
Selecting one of the radio base stations based on the base station database, and the function change instructing unit transmitting a borrowing request for the radio base station selected by the borrowing base station selecting unit to the control server of the second radio communication system. It is characterized by.

According to the second aspect, the control server of the first wireless communication system sends out a borrowing request to the management center, so that the wireless base station of the second wireless communication system can be borrowed. Become. Therefore, for example, when the control server detects a failure of a wireless base station belonging to the system, the control server borrows a wireless base station belonging to another system,
The service can be continued as it is until the failed wireless base station is repaired.

According to a third aspect of the present invention, there is provided the radio communication system control device according to the first aspect, wherein at least traffic monitoring means for monitoring traffic of each radio base station belonging to the first radio communication system is provided. Is detected, the borrowed base station selecting means selects one of the radio base stations of the second radio communication system corresponding to the position of the radio base station whose traffic has increased in the first radio communication system. Is selected from the base station database, and the function change instructing unit sends a borrowing request for the wireless base station selected by the borrowing base station selecting unit to the control server of the second wireless communication system.

According to the third aspect, when the traffic (for example, the number of calls per predetermined time or the number of call losses per predetermined time) of each radio base station belonging to the first radio communication system increases more than a predetermined value, The function change instructing means of the management center sends a borrowing request for the wireless base station selected by the borrowing base station selecting means to the control server of the second wireless communication system. Therefore, when traffic increases rapidly in the first wireless communication system, an increase in call loss can be suppressed by temporarily borrowing the wireless base station of the second wireless communication system.

According to a fourth aspect of the present invention, in the wireless communication system control device of the first aspect, each of the control servers is provided with means for grasping a position and a use state of each wireless base station. According to the fourth aspect, since each control server knows the position and usage status of each wireless base station, the control server of the first wireless communication system uses the wireless base station of another system to borrow the wireless base station. The location information of the base station can be notified to the management center, and the control server of the second wireless communication system identifies whether the wireless base station near the designated position can be lent to another system. it can.

For example, a wireless base station that has not been used at all within a predetermined time is permitted to be lent to another system, and a wireless base station that is frequently used is prohibited from being lent to another system. Can be controlled by the control server. According to a fifth aspect of the present invention, in the wireless communication system control device of the first aspect, a plurality of software modules respectively corresponding to the plurality of wireless communication systems are provided as a module library in the management center, and the function change instruction unit issues a borrowing request. A software module transfer means for transferring a software module extracted from the module library of the management center to a selected wireless base station when transmitting the module is provided.

For example, when lending and borrowing a wireless base station only between two wireless communication systems, each wireless base station may hold two software modules in advance. However, when lending and borrowing a wireless base station between a large number of wireless communication systems, each wireless base station must hold a large number of software modules in advance, which requires a large-capacity storage device.

In the present invention, since the necessary software modules are transferred from the management center to the radio base station, each radio base station needs to hold at least one set of software modules.

According to a sixth aspect of the present invention, in the wireless communication system controller according to the fifth aspect, when the function change instructing unit sends a borrow request, the software module transfer unit transmits the function change to the borrowed radio base station. It is characterized in that whether or not a required software module exists is determined, and if so, transfer of the software module is omitted.

If the wireless base station has been rented out before, there is a possibility that the software module required for the function change is already held in the wireless base station. It is useless to transfer the software module already existing in the radio base station from the management center again. In claim 6,
Since the transfer of the software module already existing in the wireless base station is omitted, the procedure of lending the wireless base station can be performed quickly for the time required for the transfer.

According to a seventh aspect of the present invention, in the wireless communication system control device of the fifth aspect, a module operation for checking each wireless base station belonging to the second wireless communication system for an abnormality of the software module transferred from the management center. Confirmation means is provided, and the module switching means stops switching of the software module when there is an abnormality in the software module transferred from the management center.

When transferring the software module from the management center to each wireless base station, there is a possibility that some change occurs in the program and data of the software module. If a software module whose function is incomplete due to a change during transfer is used as it is, a serious failure occurs in the function of the wireless base station, and the provision of the wireless communication service cannot be continued.

According to the present invention, when the software module transferred from the management center is abnormal, the switching of the software module is stopped. Failure of the station function can be prevented. An eighth aspect of the present invention is the wireless communication system controller according to the first aspect, wherein when the first wireless communication system borrows a wireless base station belonging to the second wireless communication system, the first wireless communication system borrows the wireless base station for charging. A borrowed time management means for grasping time is provided.

For example, when the first wireless communication system and the second wireless communication system are owned by independent communication carriers, lending and borrowing of wireless base stations between the systems must be paid. is there. In claim 8, the borrowing time management means knows the borrowing time of the radio base station, so that the borrowing of the radio base station can be charged based on the borrowing time. Therefore, it is possible to lend and borrow a wireless base station even between systems owned by a plurality of communication carriers.

According to a ninth aspect of the present invention, in the wireless communication system control apparatus of the first aspect, at least each wireless base station belonging to the second wireless communication system uses a wireless channel used by its own station and another wireless base station. An interference detection unit for detecting interference with a wireless channel being provided and a wireless channel changing unit for changing a wireless channel used by the own station when there is interference with the wireless channel are provided.

In the case of a wireless communication system that provides mobile communication services, wireless base stations are installed at various points. In particular, when lending and borrowing a wireless base station between a plurality of systems, since another wireless base station is installed near each wireless base station, a wireless channel is established between the wireless base stations. Interference easily occurs. In the ninth aspect, when there is radio channel interference, the radio channel used by the own station is changed, so that a radio channel with low interference can be used for communication.

According to a tenth aspect of the present invention, in the wireless communication system control apparatus according to the first aspect, a plurality of software modules respectively associated with a plurality of types of wireless communication systems are simultaneously stored in the memory means of each wireless base station. And distributing hardware resources of the respective radio base stations belonging to the second radio communication system to the first radio communication system and the second radio communication system, respectively, and simultaneously using the plurality of software modules. .

In general, a large number of radio base stations are installed at various points so that a service can be provided at all points in a service area for each radio communication system. When all the functions of the wireless base station that has been temporarily unused are lent to another system, the wireless communication terminal using the lent system in the service area of the wireless base station receives the service at all. You will not be able to do it.

According to the tenth aspect, even when the function of the wireless base station is lent to another system, the hardware resources are allocated little by little to a plurality of wireless communication systems. The wireless communication terminal receiving the service of this system can receive the service by using the remaining hardware resources.

[0034]

DESCRIPTION OF THE PREFERRED EMBODIMENTS (First Embodiment) One embodiment of a radio communication system control apparatus according to the present invention will be described.
This will be described with reference to FIGS. This form is claimed in claim 1
This corresponds to claim 2 and claims 4 to 9.

FIG. 1 is a block diagram showing the configuration of the radio communication system control device of this embodiment. FIG. 2 is a block diagram showing the configuration of the management center of this embodiment. FIG. 3 is a block diagram showing a configuration of a base station of each wireless communication system of this embodiment. FIG. 4 is a flowchart showing the operation of the management center of this embodiment. FIG. 5 is a flowchart showing the operation of each control server of this embodiment. FIG. 6 is a flowchart showing the operation of the base station of this embodiment.

In this embodiment, the management center, the base station database, the borrowed base station selecting means, the function change instructing means, the multi-mode transmitting / receiving means, the programmable device, the memory means, and the protocol converting means according to claim 1 are respectively provided by the management center 20, Base station database 22, step S1
1, steps S12 to S17, multi-band antenna 3
1, programmable signal processing circuit 34, memory circuit 3
8, corresponding to the module change circuit 37 and the communication protocol conversion circuit 40.

The module library and the software module transfer means in claim 5 correspond to the module library 23 and step S19, respectively. Further, the module operation checking means of the present invention is arranged so that the step S4
Corresponding to 5. The borrowed time management means corresponds to the use time management unit 27. The interference detecting means of claim 9 corresponds to the reception level detecting circuit 33 and step S49, and the wireless channel changing means of claim 9 corresponds to step S51.

In FIG. 1, a network 10 (A),
The control server 11 (A) and the base station 12 (A) belong to one wireless communication system (A). In practice, a number of base stations 12 (A) and exchanges (not shown) are connected to the network 10 (A). The wireless communication system (A) normally provides a predetermined communication service to, for example, a PDC wireless communication terminal.

The network 10 (B), the control server 11 (B) and the base station 12 (B) belong to another wireless communication system (B). In practice, a large number of base stations 12 (B) and a switch (not shown)
(B). This wireless communication system (B)
Usually provides a predetermined communication service to, for example, a PHS wireless communication terminal.

Network 1 of two wireless communication systems
0 (A) and 10 (B) are connected to each other. Also,
In order to control the two wireless communication systems (A, B), the management center 20 operates the networks 10 (A) and 10 (B).
And are connected respectively. Note that three or more types of wireless communication systems can be connected to each other and controlled by the management center 20.

In the radio communication system control device of FIG. 1, two radio communication systems (A, B)
It is possible to temporarily lend and borrow the base station 12 (A, B) between the two. For example, the radio communication system (A) is set to the
When a function corresponding to (A) is required, the function of the base station 12 (B) of the wireless communication system (B) is borrowed, and the base station 12 (B) is used instead of the base station 12 (A) or its base station 12 (A). Can be used as a part.

In the radio communication system controller of FIG. 1, the switching network and the charging network of the two radio communication systems (A, B) are mutually connected. In addition, a roaming technique is used so that one wireless communication terminal can use a plurality of wireless communication systems with the same number. That is, each network 10 has a roaming function for realizing roaming between wireless communication systems.

The control server 11 of each wireless communication system
It is a computer such as a personal computer or a workstation. Each control server 11 grasps and manages the geographical information (latitude, longitude, etc.) and the state (the number of calls within a predetermined time, the number of lost calls, etc.) of each base station 12 of the wireless communication system to which it belongs. As shown in FIG. 2, the management center 20 includes a communication control unit 21, a base station database 22, a module library 23, a network interface 25, a clock circuit 26, a usage time management unit 27, and a charging information management unit 2.
8 are provided. The module library 23 includes many software modules 24 (A), (B),. The module library 23 is a database arranged on a storage device such as a hard disk.

Each software module 24 of the module library 23 stores various types of services (PDC,
PHS, CDMA-ONE, etc.) are required by the base stations 12 of a plurality of wireless communication systems that provide such control. The communication control unit 21 is a computer such as a personal computer or a workstation. The communication control unit 21 includes the network interface 2
5, each network 1 of a plurality of wireless communication systems
0 is connected.

The base station database 22 holds information on all the base stations 12 belonging to each of a plurality of wireless communication systems in which the base stations 12 can borrow each other. This information includes the position (latitude, longitude, etc.) where the base station 12 is present, the usage status (using, borrowing, malfunctioning, etc.), the base station identification number, and the like. The clock circuit 26 outputs current time information. The usage time management unit 27 performs lending and borrowing of the base station 12 between a plurality of wireless communication systems.
The time during which each base station 12 is borrowed is managed. The charging information management unit 28 manages charging based on the borrowing time of the base station 12 managed by the use time management unit 27.

The base station 12 of each wireless communication system is shown in FIG.
As shown in the figure, a multi-band antenna 31, a multi-band filter 32, a reception level detection circuit 33, a programmable signal processing circuit 34, a communication control unit 35, a reception memory 3
6, a module change circuit 37, a memory circuit 38, a channel assignment circuit 39, a communication protocol conversion circuit 40, and a network interface 41.

Here, a multi-band antenna 31 and a multi-band filter 32 are used to enable communication in a frequency band used by various types of wireless communication systems. Also, a programmable signal processing circuit (Digital Signal Processor) 34 is provided so that various types of modulation and demodulation schemes and audio codec schemes used by a plurality of types of wireless communication systems can be handled by changing software. In other words, by changing the content of programming for the programmable signal processing circuit 34, it is possible to cope with various wireless communication systems.

In this embodiment, the multiband antenna 3
1 is described in Reference 1 (A. Strugatsky, CH Walter
“Multimode Multiband Antenna”, Tactical Communic
ationsConference, Vol.1.pp.281-295, 1992). In addition, for the technology of controlling the communication method by software, refer to Reference 2 (J. Mitola, III
“The Software Radio Architecture”, IEEE Comm. Ma
g. Vol. 33, No. 5, pp. 26-38, 1995).

The reception level detection circuit 33 is connected to another base station 1
2 to measure the level of the signal received to detect the interference between the radio wave transmitted by the station 2 and its own station. The communication control unit 35 is a control computer and controls the operation of the base station 12. A program executed by the communication control unit 35 and at least a part of data used by the program exist on the memory circuit 38 as the software module 24. Depending on the contents of the software module 24, this base station 1
2 determines a frequency, a modulation / demodulation method, an audio codec encoding method, a communication protocol, and the like used in wireless communication.

Therefore, by changing the software module 24 of the memory circuit 38, it is possible to make this base station 12 function as any of the base stations 12 of a plurality of types of wireless communication systems (A, B). The receiving memory 36
This is a storage device for temporarily holding the data of the software module 24 transferred from the management center 20. When the function of the base station 12 needs to be changed, the module changing circuit 37 transfers the software module 24 on the receiving memory 36 to the memory circuit 38 and rewrites the software module 24 on the memory circuit 38. Before rewriting, the software module 24 on the receiving memory 36 is verified to confirm that it operates completely.

The channel allocating circuit 39 controls a radio channel (frequency,
Time slots). The communication protocol conversion circuit 40 converts a communication protocol. That is, the data transmitted by the communication control unit 35 of the base station 12 is converted into a format suitable for the communication protocol of the network 10 to which it is connected. Communication protocol conversion circuit 4
0 is connected to the network 10 via the network interface 41.

The operation of the radio communication system control device of this embodiment will be described below with reference to FIGS. The process shown in FIG. 5 is periodically and repeatedly executed by each control server 11. When the control server 11 detects the occurrence of a failure in any of the base stations 12 managed by the control server 11, the operation of the control server 11 proceeds from steps S30 to S30.
Go to 31.

In step S31, the position (latitude, longitude, etc.) of the base station 12 in which a failure has occurred is ascertained. In the next step S32, the base station borrowing request is transmitted to the management center 20 together with the location information of the failed base station 12. The communication control unit 21 of the management center 20 executes the processing shown in FIG. The communication control unit 21 receives the base station borrowing request transmitted by the control server 11 in step S10, and proceeds to the next step S11.

In step S 11, the base station 12 to be borrowed is determined based on the position of the (failed) base station 12 and the contents of the base station database 22 of the wireless communication system that has transmitted the base station borrowing request. In the following description, FIG.
It is assumed that the base station 12 (A) of the wireless communication system (A) breaks down. In this case, the base station 12 (B) having the same service area as the service area of the base station 12 (A) is selected from among the many base stations 12 belonging to the wireless communication system (B) in which the base station 12 can be lent and borrowed from each other.
Is selected for borrowing.

Actually, since the base station database 22 of the management center 20 holds the position information of many base stations 12 belonging to each wireless communication system, the position information included in the base station borrowing request and the base station database are stored. By comparing the location information of each base station 12 on the
The base station 12 (B) having the same service area as the service area 2 (A) can be searched.

In the next step S12, a base station borrowing request is transmitted to the control server 11 of the borrowed radio communication system. Information for identifying the base station 12 (B) to be borrowed determined in step S11 is added to the base station borrowing request. For example, when renting the base station 12 (B) for the failure of the base station 12 (A) in FIG. 1, the management center 20 sends the base station 12 (B) to the control server 11 (B).
The base station borrow request of (B) is transmitted.

The operation of the control server 11 (B) on the side receiving this base station borrowing request proceeds from step S34 to S35 in FIG. 5 upon receiving the base station borrowing request. In step S35, the state of the base station 12 (B) to be borrowed is grasped. That is, the usage status of the base station 12 (B) (discrimination between unused, in use, borrowed, and failed) and traffic (the number of calls per predetermined time, etc.) are checked.

In step S36, it is determined whether the base station 12 (B) can borrow. For example, if the base station 12 (B) is continuously unused within a predetermined time, it is regarded as borrowable. If the number of calls per predetermined time is equal to or less than a predetermined threshold, the call is considered to be borrowable after waiting for an unused state. Note that the identification conditions in step S36 may be changed as necessary.

In the next step S37, step S36
Is transmitted from the control server 11 to the management center 20. In the management center 20 that has transmitted the base station borrowing request, the control server 11 (B) receives the response transmitted in step S37 in step S13 in FIG. Then, the content of this response is identified in the next step S14. If there is a response indicating that the base station 12 (B) has accepted the borrowing, the process proceeds from step S14 to S15, and if there is a response indicating that the borrowing is not allowed, the process proceeds from step S14 to S16.

In step S15, a response indicating "borrowable" is transmitted to the control server 11 (A) of the wireless communication system (A) which has generated the borrowing request. In step S16, the wireless communication system (A) that has issued the borrowing request
Is transmitted to the control server 11 (A). In step S17, the management center 20 transmits a software module confirmation instruction to the borrowed base station 12 (B).

Upon receiving the software module confirmation instruction from the management center 20, the base station 12 (B) proceeds to the processing from step S40 to S41 in FIG. In step S41, the specific software module 24 (A) required to realize the function of the borrower's wireless communication system (A) is stored in the memory circuit 38 of the base station 12 (B) or the reception memory 36. Identify whether or not it is on top. If it already exists, step S4
The process proceeds to step S5, and if not, the process proceeds to step S43.

Specific software module 24 (A)
Is not present in the base station 12 (B), Step S
In accordance with the response sent by the base station 12 (B) at 41, the processing of the management center 20 proceeds from step S18 to S19 in FIG. 4, so that the management center 20 transmits the software module 24 (A) at step S19. If the specific software module 24 (A) does not exist in the base station 12 (B), the base station 12 (B) receives the software module 24 (A) in step S43 of FIG. This software module 24 (A) is stored in the receiving memory 36 in step S44.

If the software module 24 (A) transferred from the management center 20 is to be used, or if the software module 24 (A) previously stored in the receiving memory 36 is to be used, step S45 is performed. Is executed. That is, it is verified whether or not the software module 24 (A) existing in the receiving memory 36 functions completely.

When the normal operation of the software module 24 (A) is confirmed as a result of the verification in step S45, the process proceeds from step S46 to S47. If any abnormality is detected, the change of the software module 24 is stopped, and the process ends. In step S47, an instruction is sent from the communication control unit 35 to the module change circuit 37, and the software module 24 (A) on the reception memory 36 is transferred to the memory circuit 38 under the control of the module change circuit 37. Thereby, the software module 24 used by the communication control unit 35 is changed.

Thereafter, the program for the programmable signal processing circuit 34 is rewritten using the changed software module 24. Accordingly, the frequency, modulation / demodulation method, voice codec coding method, communication protocol, and the like used by the base station 12 (B) for wireless communication are changed so as to be compatible with the service of the wireless communication system (A). In addition, a wireless channel used by the base station 12 (B) for wireless communication is allocated in step S48.

In step S49, the base station 12
For the radio channel assigned to (B), the reception level is measured using the reception level detection circuit 33 in order to check whether or not there is interference with the radio wave transmitted from another base station 12. If the reception level of the radio wave from the other station detected in step S49 is equal to or higher than a predetermined threshold, the interference increases and the quality of the communication service deteriorates.
The process proceeds from S50 to S51 to change the radio channel used by the base station 12 (B).

If a wireless channel with small interference with other stations can be secured, the process proceeds from step S50 to S52. In step S52, a change notification is transmitted to the management center 20. In the management center 20, the change notification transmitted from the base station 12 (B) in step S52 is transmitted in step S2 in FIG.
0 is received. Upon receiving this change notification, the process of the management center 20 proceeds to step S21.

In step S21, the use time management unit 27
To start measuring the usage time. That is, the time during which the wireless communication system (A) borrows the base station 12 (B) of the wireless communication system (B) is measured by the use time management unit 27. In step S22, the charging information management unit 28 is controlled to perform a charging process. That is, charging is performed according to the usage time measured by the usage time management unit 27.
This billing information is stored in the billing information management unit 28, and is transmitted to the network 10 (A) or 10 (B) as necessary.

As described above, since the function of the base station 12 can be roamed between a plurality of different types of wireless communication systems, even if a failure occurs in the base station 12 (A), A wireless communication terminal using the wireless communication system (A) can receive a communication service using the base station 12 (B) of another wireless communication system as it is.

In this embodiment, the case where the necessary software modules 24 are transferred from the management center 20 to the borrowed base station 12 has been described. However, a plurality of types of software modules 24 may be stored in the base station 12 in advance. For example, the transfer of the software module 24 can be omitted. In this embodiment, the borrowed base station 12 (B)
When determining the base station 12 (A), the base station 12 (B) at the position corresponding to the base station 12 (A) in which the failure has occurred is searched using the position information such as the latitude and longitude, but has the same service area. If the base stations 12 of a plurality of systems are associated with each other in a one-to-one manner and their correspondences are registered in the base station database 22 as a table, the target base station 12 can be easily compared without comparing the positions. Is searchable.

(Second Embodiment) FIG. 7 shows another embodiment of the radio communication system control apparatus of the present invention.
This will be described with reference to FIGS. This embodiment corresponds to claims 3 and 10. FIG. 7 is a block diagram showing the configuration of the management center of this embodiment. FIG. 8 is a block diagram showing a configuration of a base station of each wireless communication system of this embodiment.
FIG. 9 is a flowchart showing the operation of the management center of this embodiment.

This embodiment is a modification of the first embodiment. 7 to 9, the same elements and processes as those in the first embodiment are denoted by the same reference numerals and step numbers. Further, the configuration and operation of the parts not shown or described are the same as those of the first embodiment.
In this embodiment, the traffic monitoring means in claim 3 corresponds to the traffic monitoring unit 29 and step S10B.

As shown in FIG. 7, in this embodiment, a traffic monitoring unit 29 is provided in the management center 20. The traffic monitoring unit 29 controls the control server 11 of each wireless communication system.
And constantly monitors the traffic situation for each base station of each wireless communication system. Specifically, the traffic situation is grasped as the number of calls or the number of call losses per predetermined time.

In the management center 20, step S1 of FIG.
At 0B, the traffic of each wireless communication system is monitored for each base station. Then, when the traffic becomes equal to or more than a predetermined threshold, the process proceeds to step S11. Subsequent processing is almost the same as in the first embodiment. Therefore, when the traffic volume of the base station 12 in each wireless communication system becomes equal to or larger than a predetermined threshold (determined by a communication carrier or the like), the base station 12
In order to alleviate the congestion of the service area covered by the mobile station, a specific base station 12 (closely located) of another wireless communication system having a similar service area is rented.

As shown in FIG. 8, in this embodiment, a plurality of multi-band antennas 31 (1), 31
(2) and multi-band filters 32 (1), 32
(2) is provided. Further, the memory circuit 38B has a storage capacity capable of holding a plurality of software modules 24 at the same time. The basic operation of the communication control unit 35B is the same as that of the communication control unit 35 of the first embodiment, but a plurality of sets of software modules 24 are stored in the memory circuit 38B.
Is held, the functions of a plurality of types of wireless communication systems can be simultaneously realized by using the respective software modules 24 simultaneously.

In the case where one base station 12 simultaneously realizes the functions of a plurality of types of wireless communication systems, the communication control unit 3
5B distributes available hardware resources to each wireless communication system. For example, when the base station 12 (B) is shared by the wireless communication system (A) and the wireless communication system (B), the multi-band antenna 31 (1) and the multi-band filter 32 (1) are connected to the wireless communication system ( The multi-band antenna 31 (2) and the multi-band filter 32 (2) can be allocated to the function of the wireless communication system (B). With respect to the programmable signal processing circuit 34, a function corresponding to two wireless communication systems can be realized at the same time by allocating the internal hardware to two or using time division.

Therefore, in this embodiment, even when the base station 12 is lent to another wireless communication system, only a part of the function of the base station 12 can be lent, and the original function of the wireless communication system can be maintained. For example, FIG.
In the case where the traffic of the base station 12 (A) of the wireless communication system (A) increases rapidly, a borrowing request to the base station 12 (B) is generated. At this time, the base station 12
When only a part of the function of (B) is lent to the wireless communication system (A), the function of providing the service of the wireless communication system (B) remains in the base station 12 (B).
A wireless communication terminal using the service of the wireless communication system (B) can receive a communication service using the base station 12 (B). For this reason, the probability of occurrence of a call loss decreases.

When two sets of the multi-band antenna 31 and the multi-band filter 32 are used in only one radio communication system, hardware resources can be effectively used if they are configured as a diversity antenna. In each of the above embodiments, when a failure occurs in the base station 12 of each wireless communication system or when the traffic temporarily increases, the base station 12 of another wireless communication system is used.
Has been shown, but if a predetermined input terminal is connected to the management center 20 or the network 10,
A request for borrowing a base station can be generated as needed according to a request from a communication carrier or the like.

When lending and borrowing the base station 12 especially when traffic increases rapidly, a plurality of base stations 12 are arranged at positions close to each other, so that it is difficult to secure a radio channel with small interference. Could be In such a case, for example, by using the directivity control of the antenna together, it is easy to secure the wireless channel and improve the communication quality.

[0080]

As described above, according to the present invention, when a plurality of wireless communication systems are interconnected, a failure or a sudden increase in traffic occurs at a base station of each wireless communication system. Can borrow some or all of the functions of the base station of another wireless communication system.

As a result, the system can be promptly restored as a provisional measure until restoration at the time of failure of the base station. In addition, by lending and borrowing base stations between wireless communication systems, it is possible to flexibly cope with traffic fluctuations, and a flexible network configuration is made possible.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of a wireless communication system control device according to a first embodiment.

FIG. 2 is a block diagram illustrating a configuration of a management center according to the first embodiment.

FIG. 3 is a block diagram illustrating a configuration of a base station of each wireless communication system according to the first embodiment.

FIG. 4 is a flowchart illustrating an operation of the management center according to the first embodiment.

FIG. 5 is a flowchart illustrating an operation of each control server according to the first embodiment.

FIG. 6 is a flowchart illustrating an operation of the base station according to the first embodiment.

FIG. 7 is a block diagram illustrating a configuration of a management center according to a second embodiment.

FIG. 8 is a block diagram illustrating a configuration of a base station of each wireless communication system according to the second embodiment.

FIG. 9 is a flowchart illustrating an operation of the management center according to the second embodiment.

FIG. 10 is a block diagram illustrating an example of arrangement of a plurality of wireless communication systems.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Network 11 Control server 12 Base station 20 Management center 21 Communication control unit 22 Base station database 23 Module library 24 Software module 25 Network interface 26 Clock circuit 27 Usage time management unit 28 Billing information management unit 29 Traffic monitoring unit 31 Multiband antenna 32 Multi-band filter 33 Reception level detection circuit 34 Programmable signal processing circuit 35 Communication control unit 36 Reception memory 37 Module change circuit 38 Memory circuit 39 Channel allocation circuit 40 Communication protocol conversion circuit 41 Network interface

 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Kazuhiro Uehara 2-3-1 Otemachi, Chiyoda-ku, Tokyo Within Nippon Telegraph and Telephone Corporation (72) Inventor Shuji Kubota 2-3-3, Otemachi, Chiyoda-ku, Tokyo No. 1 F-term in Nippon Telegraph and Telephone Corporation (reference) 5K030 GA08 GA12 GA13 HB20 HC09 JA07 JL01 JL07 KA01 KA05 KA07 LB13 LE03 5K033 AA06 CB06 DA02 DA06 DA19 DB01 DB12 DB16 DB18 EA04 EB00 EB03 EC03 5K0311 AA03 DD03 HH63 JJ02 JJ11 LL01 TT01 5K067 AA26 AA28 BB04 DD29 DD36 DD57 EE10 EE16 GG01 HH11 JJ73 LL05 LL14 9A001 CC05 CC06 CC07 DD10 LL02 LL05 LL09

Claims (10)

[Claims] 1. An independent first wireless communication system and a second wireless communication system of different types, which are provided so as to be interconnectable, are used, and the first wireless communication system and the second wireless communication system Each comprising at least one radio base station capable of performing radio communication with a predetermined mobile communication terminal and a control server controlling each system, and a second radio communication system when a first radio communication system satisfies a specific condition. A radio communication system control device for changing a function of at least a part of a radio base station belonging to the radio communication system, wherein the management center is connected to both the first radio communication system and the second radio communication system. And the management center includes: a base station database holding information of each wireless base station belonging to the second wireless communication system; If the first wireless communication system satisfies certain conditions,
Borrowed base station selecting means for selecting one wireless base station of the second wireless communication system corresponding to the position of a specific wireless base station of the first wireless communication system from the base station database; Sends a borrowing request for the selected wireless base station to the control server of the second wireless communication system, and, when permitted by the control server, sends an instruction to change the function to the selected wireless base station At least a radio base station belonging to the second radio communication system, comprising: a multi-mode transmission / reception means including an antenna and a feed line corresponding to transmission / reception of radio signals of a plurality of frequencies; A programmable device that can be connected to the device and that can program various functions necessary for communication, such as modulation and demodulation and a filter; A memory for holding at least one software module for controlling the muffleable device; and a software module for controlling the programmable device in response to a function change instruction sent from the function change instruction means of the management center. A wireless communication system control device, comprising: module switching means; and protocol conversion means for mutually converting a plurality of types of communication protocols. 2. The radio communication system control device according to claim 1, wherein when a borrowing request is issued from the control server of the first radio communication system to the management center, the borrowed base station selecting means sets the first radio communication. One radio base station of the second radio communication system corresponding to the position of a specific radio base station of the system is selected based on the base station database, and the function change instruction means is selected by the borrowed base station selection means. A radio communication system control device for transmitting a borrowing request for a radio base station to a control server of a second radio communication system. 3. The radio communication system control device according to claim 1, further comprising: traffic monitoring means for monitoring traffic of at least each radio base station belonging to said first radio communication system, wherein said traffic monitoring means is at least a predetermined number of said first radio communication system. When the traffic increase of the first wireless communication system is detected, the borrowed base station selecting means selects one wireless base station of the second wireless communication system corresponding to the position of the wireless base station whose traffic has increased in the first wireless communication system. Radio communication system control apparatus selected from a station database, wherein said function change instructing means sends a borrowing request for the radio base station selected by said borrowing base station selecting means to a control server of a second radio communication system. . 4. The radio communication system control device according to claim 1, wherein each control server is provided with means for grasping the position and use status of each radio base station. 5. The wireless communication system control device according to claim 1, wherein a plurality of software modules respectively corresponding to the plurality of wireless communication systems are provided as a module library in the management center, and the function change instruction unit issues a borrowing request. A wireless communication system control device, comprising: a software module transfer unit for transferring a software module extracted from the module library of the management center to a selected wireless base station when transmitting. 6. The radio communication system control device according to claim 5, wherein said software module transfer means, when said function change instructing means sends out a borrowing request, a software necessary for the borrowed radio base station to change its function. An apparatus for controlling a wireless communication system, comprising: checking whether a module exists; and, if present, omitting a transfer of a software module. 7. The radio communication system control device according to claim 5, wherein each radio base station belonging to the second radio communication system has a module operation check means for checking whether there is an abnormality in the software module transferred from the management center. The wireless communication system control device, wherein the module switching means stops the switching of the software module when the software module transferred from the management center has an abnormality. 8. The radio communication system control device according to claim 1, wherein when the first radio communication system borrows a radio base station belonging to the second radio communication system, the first radio communication system borrows the radio base station for charging. A wireless communication system control device, comprising a borrowed time management means for grasping time. 9. The wireless communication system control device according to claim 1, wherein at least each wireless base station belonging to the second wireless communication system is provided with a wireless channel used by its own station and a wireless channel used by another wireless base station. A radio communication system control device, comprising: an interference detection unit that detects interference with a channel; and a radio channel change unit that changes a radio channel used by the own station when there is interference of a radio channel. 10. The wireless communication system control device according to claim 1, wherein a plurality of software modules respectively associated with a plurality of types of wireless communication systems are simultaneously stored in said memory means of each wireless base station, and said second software module is stored in said memory means. A wireless communication system wherein hardware resources of respective wireless base stations belonging to the wireless communication system are allocated to a first wireless communication system and a second wireless communication system, respectively, and are used simultaneously by the plurality of software modules. Control device.