JPH11136742A - Communication zone relief system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To relieve communication hazard in a zone where a fault takes place in the radio communication system consisting of pluralities of radio communication zones where one zone is managed by one base station. SOLUTION: On occurrence of a fault in a base station adjacent to a base station 1, a control section 12 is informed of it. The control section 12 receiving the notice starts a standby base station installation 11 and its control section 13. The standby base station installation 11 controls a rotator 15 under control of the control section 13 to direct a directivity antenna 16 in a direction of a communication zone of the adjacent base station and continues the communication with the mobile station in the communication zone on behalf of the adjacent base station.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] 1. Field of the Invention [0002] The present invention relates to a cellular radio communication system, and more particularly to a system for remedying a system failure.

[0002]

2. Description of the Related Art Conventionally, automobile / mobile phone systems and MC
A method of compensating for a failure of a base station in a cellular wireless communication system in which a service area of a wireless system or the like is covered in a plurality of communication zones (wireless zones) in a planar manner is to use a spare device acting as a base station for the base station. The provided proxy control system is widely used. In addition, there has been proposed a method of controlling a radio output and a receiving sensitivity of a base station adjacent to a failed base station to relieve a communication zone in which a wave has stopped.

[0003]

The above-mentioned prior art communication zone rescue method has the following problems.

[0004] First, in the system in which the base station itself uses a backup device to supplement its own communication zone, it is pointed out that it is impossible to remedy the situation when a serious failure occurs and the station is driven to a stoppage.

[0005] Next, in a system for controlling a transmission output and a receiving sensitivity of a base station to relieve a stopped communication zone, a system design is performed in order to extend a communication zone of a relieved base station to a communication zone in which a failure has occurred. The frequency repetition distance that must be maintained above cannot be secured,
Points that cause interference are raised.

Further, the communication zone expanded for rescue covers a communication zone that does not require rescue, so that more mobile stations are accommodated than necessary.
The point where traffic is imminent is raised.

[0007]

SUMMARY OF THE INVENTION A communication zone rescue system of the present invention is used in a cellular radio communication system; it has a directivity in a radio signal radiation direction and changes a radiation direction to an arbitrary base station in the system. A directional antenna capable of covering any of the communication zones assigned to any adjacent base station, a direction changing means for changing a radiation direction of the directional antenna, and the directional antenna connected to the directional antenna. A spare base station facility capable of acting as a base station; when the adjacent base station stops transmitting, the direction changing means is assigned to the base station that has stopped the radiation direction of the directional antenna. A configuration is provided in which the standby base station equipment substitutes for the stopped base station toward the communication zone, thereby preventing the communication zone from disappearing due to the stop wave.

In the above configuration, the direction changing means includes a rotator capable of changing the direction of the antenna, and changing the direction of one directional antenna to change the communication zone to be covered. The direction changing unit includes an antenna switch that selectively connects a plurality of antennas to the backup base station equipment, and selects any one of the plurality of directional antennas whose radiation directions are set to different directions. Thus, a configuration can be adopted in which the communication zone to be covered is changed.

Further, by duplicating the control means of the base station, the spare base station equipment can be shared with the spare device of the base station itself.

[0010]

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

FIG. 1 is a diagram showing a configuration of a communication zone of a cellular radio communication system to which the present invention is applied. In FIG. 1, an area for providing a wireless communication service to a mobile wireless communication terminal (mobile station) not shown is defined by a plurality of base stations (wireless base stations) 1, 2,. Communication zones (wireless zones) 1a, 2a,
, 6a. Each of the base stations 1 to 6 is connected by an exchange (not shown), and is connected to a communication partner of the mobile station. Here, for example, when a failure occurs in the base station 2 and communication with the mobile station in the communication zone 2a cannot be ensured, the adjacent base station 1 covers the communication zone 2a separately from the communication zone 1a.

FIG. 2 is a block diagram of a base station according to the first embodiment of the present invention. In FIG. 2, the base station 1 includes a base station device 10 connected to an antenna 14 and controlled by a control unit 12, and a backup base station equipment 11 connected to a directional antenna 16 and controlled by a control unit 13. I have.

The control section 12 controls the base station apparatus 10 to enable communication with the base station 1. The base station device 10 is a transceiver for realizing communication with a mobile station, and the antenna 14 emits a radio signal into the communication zone 1a and receives (incidents) a radio signal. The control unit 12 also has a function of detecting a wave stop at an adjacent base station, for example, the base station 2, and a function of substituting the spare base station equipment 11 as an adjacent base station, in this case, the base station 2. The directional antenna 16 is an antenna that emits and receives a radio signal only in a specific direction set in advance, and can cover a communication zone of an arbitrary adjacent base station by changing the direction. The rotator 15 changes the direction of the directional antenna 16. The spare base station equipment 11 is a base station device having the same function as the base station device 10.

Next, the operation of the base station 1 shown in FIG. 1 will be described. Normally, the control unit 12 communicates with the mobile station in the communication zone 1a using the radio base station 10 and the antenna 14. Here, for example, when a failure occurs in the base station 2 and communication with the mobile station in the communication zone 2a becomes impossible, the base station 1 previously designated as the substitute base station of the base station 2 is notified via the exchange. (Alternatively, the state of wireless transmission from the base station apparatus 2 may be monitored by the base station apparatus 10). The control unit 12 having received the notification activates the spare base station equipment 11 and the control unit 13 thereof. Control unit 1
Under the control of 3, the backup base station equipment 11
To direct the directional antenna 16 toward the communication zone 2a of the base station 2 so that communication with a mobile station in the communication zone 2a can be continued in place of the base station 2.

FIG. 3 is a block diagram showing a second embodiment of the present invention. The rotator 15 and the single directional antenna 16 shown in FIG. 2 are replaced with an antenna switch 20 and a plurality of directional antennas. The following is an example in which the values are replaced with 16, 17, 18, and 19. Under the control of the control unit 13, the antenna switch 20 selects one of the plurality of directional antennas 16 to 19 set in advance in directions different from each other (adjacent base station communication zone), and Connect to the station equipment 15. The direction of radiating and receiving radio waves can be changed by a combination of directional antennas connected to the backup base station apparatus 11.

Here, it is assumed that the cover direction of the directional antenna 16 is set in the communication zone 2a. When a failure occurs in the base station 2 and communication with a mobile station in the communication zone 2a becomes impossible, the base station 1 is notified. The control unit 12 having received the notification activates the spare base station equipment 11 and the control unit 13 thereof. Under the control of the control unit 13, the spare base station equipment 11
The directional antenna 16 is selected by controlling the antenna switch 20. Thereby, communication with the mobile station in the communication zone 2a can be continued in place of the base station 2.

FIG. 4 is a block diagram showing a third embodiment of the present invention, in which the control unit shown in FIG. 2 is duplicated. The control unit 24 in FIG. 4 includes the control unit 12 in FIG.
13 is a common control unit. The base station 1 operation processing unit 22 has a function of operating the base station apparatus 10 as the base station 1 or operating the backup base station equipment 11 as the base station 1 when the base station apparatus 10 has failed. The base station 2 operation processing unit 23 has a function for operating the spare base station equipment 11 as the base station 2.

Under the control of the control unit 24, when the base station apparatus 10 is normal, the antenna switch 21 connects the base station apparatus 10 and the antenna 14, and also connects the backup base station equipment 11, the rotator 15, Is connected to the directional antenna 16. When the base station device 10 has a fault, the control unit 24
The antenna 14 is connected to the spare base station equipment 11
Change the connection to

Next, the operation of the base station shown in FIG. 4 will be described in detail. When the control unit 24 detects a failure in the base station device 10, the base station 1 operation processing unit 22 executes control processing in order to operate the spare base station equipment 11 as the base station 1. A radio signal from the backup base station device 11 is emitted through the antenna switch 21 to the communication zone 1a of the base station 1 by the antenna 14. When a failure of the adjacent base station 2 is detected, the base station 2 operation processing unit 23 executes an operation process in order to operate the backup base station equipment 11 on behalf of the base station 2. The radio signal from the backup base station apparatus 11 passes through the antenna switch 21 and the directional antenna 16
Is emitted toward the communication zone 2a of the base station 2, and communication as the base station 2 is secured.

In the above description, only the configuration of the base station 1 is shown, but the other base stations 2 to 6 can have the same configuration.

As described above, when the directional antenna provided in the base station is used, a communication zone can be created in a specific direction of the base station. This technique has been proposed as a method for covering an area where the conditions for installing a base station are not satisfied. In the present invention, this technique is combined with a means for changing the direction of the directional antenna, and the directional antenna is directed from the normally functioning base station in the adjacent zone to the communication zone in which the function of the base station is lost, thereby enabling communication. Zone relief is possible.

At this time, since the communication zone formed for rescue does not change much in the range covered by the original communication zone, the number of mobile stations is not accommodated more than necessary, and traffic is imminent. There is no such thing. This also contributes to reducing interference with surrounding zones.

Further, when the control of the base station is duplicated,
In each control, an operation like an independent base station can be performed, so that the present invention can be realized without providing a large-sized spare base station equipment. it can.

In addition, it is desirable to provide equipment capable of relieving the interruption in the adjacent communication zone in all base stations in consideration of various situations. However, according to the present invention, since interference can be reduced, Equipment for all base stations is possible.

[0025]

According to the present invention, the spare base station equipment is installed at any base station, and the direction of radiating the radio signal of the antenna (directional antenna) of the spare base station equipment can be arbitrarily changed. When the adjacent base station becomes an obstacle, the direction of the directional antenna is directed toward the communication zone of the adjacent base station,
Since the spare base station equipment substitutes for the base station function, it is possible to rescue the faulty communication zone.

Further, since the spare base station equipment is shared as a base station apparatus for backup of the base station apparatus and for rescue of adjacent base stations, and the control means of the base station are duplicated, large-scale equipment is unnecessary. Yes, it can be economical.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration of a communication zone of a cellular wireless communication system to which the present invention is applied.

FIG. 2 is a block diagram showing a first embodiment of the present invention.

FIG. 3 is a block diagram showing a second embodiment of the present invention.

FIG. 4 is a block diagram showing a third embodiment of the present invention.

[Explanation of symbols]

 1, 2,..., 6 base stations 1a, 2a,. 21 Antenna switch

Claims (4)

[Claims] In a cellular radio communication system, an arbitrary base station in a system has directivity in a radiation direction of a radio signal and is assigned to an arbitrary adjacent base station by changing the radiation direction. A directional antenna that can cover any of the communication zones, a direction changing unit that changes a radiation direction of the directional antenna, and a spare base station facility that is connected to the directional antenna and can perform the function of the adjacent base station. In the case where the adjacent base station is stopped, the direction changing means stops the radiation direction of the directional antenna toward the communication zone assigned to the stopped base station, and stops the standby base station equipment. A communication zone rescue method for preventing a communication zone from disappearing due to a wave stop by acting as a substitute for a base station. 2. The communication system according to claim 1, wherein said direction changing means includes a rotator capable of changing the direction of an antenna, and changing a direction of one directional antenna to change a communication zone to be covered. The described communication zone rescue method. 3. The directional changing means includes an antenna switch for selectively connecting a plurality of antennas to the backup base station equipment, wherein the plurality of directional antennas whose radiation directions are set to different directions are different from each other. 2. The communication zone rescue method according to claim 1, wherein a communication zone to be covered is changed by selecting one of the communication zones. 4. The communication zone rescue system according to claim 1, wherein the spare base station equipment is shared with a spare device of the base station itself by duplicating control means of the base station.