JPH09289674A - Radio interface monitor system for radio base station - Google Patents

Abstract

PROBLEM TO BE SOLVED: To use a radio base station so as to monitor a defect of a radio interface section of other radio base station in a mobile radio communication system. SOLUTION: This system is made up of an exchange 10 containing a radio interface maintenance equipment 12, plural radio base stations 21-1-23-4 each provided with a function receiving mutual transmission signals in the network, and mobile terminal equipments 30. In this case, each of the radio base stations 21-1-23-4 is provided with a function to decrease a signal reception level or to increase a signal transmission level and also with a function to receive a transmission signal from other radio base stations, detecting base station address information of the other radio base stations, and informing the result to the exchange 10 or the radio interface maintenance equipment 12.

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 in which a mobile terminal communicates via a switch using radio, and more particularly to a mobile corps communication system having an abnormality monitoring function.

[0002]

2. Description of the Related Art Conventionally, in a wireless communication system as disclosed in Japanese Unexamined Patent Publication No. 4-42628, a method for checking the transmitting and receiving functions of a wireless base station has been reported. this is,
By issuing a test radio wave transmission command from the system control unit to the wireless mobile terminal and receiving the test radio wave from the wireless mobile terminal at the wireless base station in which the terminal exists, the reception status of the wireless base station is confirmed. In this method, the system control unit notifies the wireless base station of a command to transmit a test radio wave, and the reception state of the wireless mobile terminal is checked. With this method, it is possible to check for malfunctions in the wireless interface section of the wireless base station and the mobile terminal.

[0003]

In such a conventional wireless communication system, in order to detect a malfunction of the wireless interface section of the wireless base station, it is necessary for the mobile terminal to exist in the service area under the wireless base station. . Therefore, when the mobile terminal does not exist in the service area under the radio base station, the above method cannot detect the malfunction of the radio interface unit of the radio base station. Also, for maintenance of the wireless interface unit of the conventional wireless base station, the maintenance person moves in all areas together with the mobile terminal, makes a call to all wireless base stations, and checks whether communication is allowed or not. It takes a lot of time to identify a device having a defect in the wireless interface.

An object of the present invention is to solve the above problems and provide a simple wireless interface monitoring system for a wireless base station.

[0005]

Means for Solving the Problems The above-mentioned object is to provide an exchange that accommodates a radio interface maintenance device internally or externally, a radio base station that is provided with a function of receiving mutual transmission signals in a network, and a mobile station. In a network composed of terminals, the wireless base station is provided with the function function of lowering the signal reception level, the transmission signal from another wireless base station is received, and the base station address information of the other wireless base station is received from this received signal. This is achieved by providing a function of detecting and notifying the result to the exchange or the radio interface maintenance device. Similarly, the radio base station is provided with a function to raise the signal transmission level, and another radio base station outside the service area receives this transmission signal and detects the base station address information of the transmission radio base station from this reception signal. This is achieved by providing a function of notifying the exchange or the radio interface maintenance device of the result. As another method, in addition to providing the above function in the wireless base station, providing a database for accumulating the previously performed wireless interface monitoring results, and providing the function of comparing the reception result notified from the wireless base station with the previous result. Alternatively, it is achieved by providing it in the radio interface maintenance device.

[0006]

According to the present invention, since the radio base station arranged in the communication zone works as a terminal device of another radio base station,
The maintenance of the wireless interface can be performed remotely. Furthermore, by providing a function of periodically activating a maintenance request from the exchange or the wireless interface maintenance device, unmanned system maintenance can be achieved.
Further, since the present invention has the function of storing the wireless interface maintenance result in the database, it becomes possible to specify which wireless base station has an abnormality based on the base station address information.

[0007]

BEST MODE FOR CARRYING OUT THE INVENTION First, the configuration of a system according to the present invention will be described. FIG. 1 is a configuration diagram showing the configuration of the entire network. The network of the mobile terminal call system according to the present invention is configured such that one exchange 10 accommodates a plurality of call zones P1 to P3, and each call zone has service areas A1-1 to A1-, respectively.
A plurality of radio base stations 21-1 to 21-3 and 22-1 to 22 having 3, A2-1 to A2-3, A3-1 to A3-4
-3, 23-1 to 23-4 are arranged, and each radio base station is connected to the exchange 10. Further, the network of the mobile terminal call system according to the present invention is configured such that the radio interface maintenance terminal 10 and the database 11 are housed in the exchange 10. The radio interface maintenance device 12 for performing the radio interface maintenance of the radio base station is connected to the exchange 10 and may be built in the exchange or externally attached. A database 11 that stores wireless base station address information notified from the wireless base station is connected to the exchange 10.

FIG. 2 is a block diagram showing a hardware configuration of the radio base station. The radio base station 20 has an antenna 2
01, wireless interface 202, and wireless receiver 20
3, a control unit 204, a hybrid circuit 205, an information transmitting unit 206, a wireless transmitting unit 207, a terminal address detecting unit 208, and a terminal address transmitting unit 209,
Further, a base station address detection unit 210 and a changeover switch (internal switch) 211, which are unique to the present invention, are provided.
Taking the radio base station 21-1 in the call zone P1 as an example, the radio base station is not limited to transmitting / receiving with the mobile terminal 30 in the service area A1-1, but also another radio base station 21-2 or a radio base station. In order to be able to receive the transmission signal from the station 21-3, a base station address information detection unit 210 that determines which wireless base station is currently communicating is provided inside.

In the case of normal communication with the mobile terminal 30, the transmission path from the radio base station to the mobile terminal is the hybrid circuit 205, the terminal address transmission section 209, the information transmission section 206, the radio for the call from the exchange 10. It is transmitted from the antenna (201) via the transmitting unit 207 and the wireless interface 202. On the other hand, the reception path from the mobile terminal 30 is sent to the exchange 10 via the antenna 201, the wireless interface 202, the wireless reception unit 203, the control unit 204, and the hybrid circuit 205. The wireless reception unit 203 notifies the received signal to the terminal address detection unit 208, where the terminal address information is detected. With this function, the radio base station recognizes which mobile terminal is currently communicating.

At the time of monitoring the wireless interface according to the present invention, the wireless base station 21-1 lowers the reception level according to the monitoring instruction from the wireless interface maintenance device 12 to substantially extend the service area A1-1 and cannot normally receive. The radio waves of other wireless base stations can be received, the internal switch 211 is switched, and the base station address detection unit 210 is operated from the received signal. As a result, it becomes possible to detect the base station address information for determining from which radio base station the signal has been received.

FIG. 3 is a signal format diagram showing the function of the wireless interface between the wireless base stations 21-1 to 23-4 and the mobile terminal 30 in the mobile communication network according to the present invention. In this system, RCR STD-2
The wireless interface specified in 8 (Radio System Development Center) was used. A signal 101 emitted from an individual radio base station to a mobile terminal has a structure in which 240 bits are used as one frame, which is shown as a time frame for one channel. This frame includes base station address information 111, which is the unique number of the wireless base station that transmits the signal, and the unique number (terminal address information) of the mobile terminal that is the receiving destination.

By time-multiplexing four time frames 101 for one channel, which is the transmission signal, TDMA transmitted within the service area of one radio base station.
The frame 102 is constructed. One TDMA frame 102 in the service area A of one radio base station
Is composed of an up signal which is a signal from the mobile terminal to the radio base station and a down signal which is a signal from the radio base station to the mobile terminal. For each radio base station, radio signals for four mobile terminals are uplink signals. 4 channels for downlink, 4 channels for downlink signal,
In total, it is composed of a time frame 101 for 8 channels. In a radio zone P composed of several radio base stations, each TDMA frame transmitted from n radio base stations is transmitted as an LCCH superframe 103.

Next, the operation procedure of the wireless interface monitoring processing according to the present invention will be described with reference to FIGS. When a periodic program built in the exchange 10 or the radio interface maintenance device 12 or a command by a maintenance person is input (S1), the exchange 10 is connected to the radio base station 2
A command for monitoring the wireless interface unit of the wireless base stations 21-2 and 21-3 is issued to 1-1 (S2).

If the radio base station 21-1 can receive this command, it temporarily lowers the received radio wave intensity (reception level), and the radio base station 21-2 and the radio base station 21- cannot receive at the normal reception level. In addition to enabling reception of the transmission signal from the mobile station 3, the mobile station mode is switched to a mode in which the internal switch 211 is switched to enable the base station address information detection unit 210 (S3). Then, the wireless base station 21-1
Receives the transmission signal from each of the radio base stations 21-2 and 21-3 (S4), detects the TDMA frame 102 from the LCCH superframe 103 of the reception signal,
From this, the base station address information 111 is detected (S
5). The wireless base station 21-1 notifies the wireless interface maintenance device 12 of the detected base station address information 111 via the exchange 10 (S6).

The exchange 10 stores the notified base station address information 111 in the connected database 11 S
7

The database 11 stores the notified base station address information in the format shown in FIG. Here, which wireless base station received the transmission signal from which wireless base station is stored in association with each other.

After the base station address information is stored in the database 11, the exchange 10 instructs the radio base station 21-1 to end the monitoring (S8), and the radio base station 21-1 receives the instruction. The radio field intensity (reception level) is returned to the normal level, the internal switch 211 is switched to return to the wireless base station mode (S9), and the normal operation state is set (S10).

When the monitoring by the wireless base station 21-1 is completed, the exchange 10 issues a wireless interface monitoring instruction by the same operation to the next wireless base station 21-2 (S1).
1), the radio base station 21-2 shifts to the mobile terminal mode (S12) and starts the monitoring process.

As described above, the exchange 10 issues a monitoring request to all the radio base stations arranged in the network, and stores the base station address information notified as a result in the database 11. When the monitoring by all the wireless base stations is completed, the wireless interface maintenance device 12 extracts the malfunction of the wireless interface of the wireless base station based on the data accumulated in the database 11.

In the above embodiment, the radio base station 21-1 which received the radio interface monitoring instruction lowers the strength of the received radio wave and can receive the signals from the other radio base stations 21-2 and 21-3. , The radio base station 21-
2 and 21-3 temporarily increase the transmission radio field intensity to widen the service area A1-2 to form the service area A1-2 ′, so that the wireless base station 21-1 temporarily exists in the area within itself. It is also possible to monitor the wireless interface.

The process of extracting a faulty radio base station in the radio interface maintenance device 12 is performed by the procedure shown in FIG. In FIG. 7, i is the receiving base station number,
j is the transmission base station number. First, the wireless interface maintenance device 12 sets initial values with i = 1 and j = 1 (S31). When i = j, the transmitting station and the receiving station are the same, so another transmitting base station is selected (S32). A radio base station i in the network is compared with another radio base station j to verify whether the signal reception is successful (S3).
3). When the reception is successful, it is judged whether or not the transmitting side wireless base station j is the last n transmitting base station (S34).
After that, the state of the next transmitting-side radio base station j + 1 (S35) is checked to verify all the states of the transmitting-side radio base station. When all the states of the transmission-side radio base station j have been verified with respect to the reception-side radio base station i in step S34, it is checked whether all the transmission-side radio base stations have been verified (S36). For the receiving side wireless base station i + 1, whether or not the first transmitting side wireless base station j can receive is verified (S37).

In step S33, if there is a wireless base station that has not received, the positions of the transmitting wireless base station j and the receiving wireless base station i are switched, and the wireless base station that has not received has succeeded in transmission. It is checked whether there is any (S38). If the opposite case is not successful (NG), it is extracted that there is a failure in the wireless interface unit of the wireless base station i which is the receiving wireless base station first and the transmitting base station this time (S39). .

If reception is possible (OK) in step S38, and if the radio base station i does not receive in step S39, it is determined whether the transmission side radio base station has been verified to the end (S40). If not completed, the state of the next transmission-side wireless base station j + 1 (S41) is verified.

In step (S40), the transmitting side wireless base station j
When the verification is performed up to the end of
For +1, verification is performed from the first receiving base station on the transmitting side (S42).

As described above, since the possibility of reception is bidirectionally verified by the combination of the receiving side wireless base station and the transmitting side wireless base station, the radio wave condition is unstable due to some influence. It is possible to discriminate whether or not the failure occurs or the failure is due to the failure of the wireless interface unit of the wireless base station.

[0026]

According to the present invention, it is possible to monitor the wireless interface section of a wireless base station, which was conventionally performed via a mobile terminal, by monitoring the wireless base stations, and the monitoring operation can be automated. In addition, the reliability of the mobile communication system can be improved.

[Brief description of drawings]

FIG. 1 is a conceptual diagram showing a mobile communication network configuration to which the present invention is applied.

FIG. 2 is a hardware configuration diagram of a radio base station to which the present invention is applied.

FIG. 3 is a time slot configuration diagram of a wireless section defined by RCR STD-28 (Radio System Development Center).

FIG. 4 is a monitoring sequence of a wireless interface unit of a wireless base station according to the present invention.

FIG. 5 is an image showing a change state of a service area due to a signal reception level / transmission level change according to the present invention.

FIG. 6 is an image of notified wireless interface unit monitoring results in the database used in the present invention.

FIG. 7 is a flowchart for extracting a wireless base station having a defect in the wireless interface unit according to the present invention.

[Explanation of Codes] 10 Switch 11 Database 12 Radio Interface Maintenance Device 20, 21-1 to 21-3, 22-1 to 22-3, 23
-1 to 21-4 Radio base station 30 Mobile terminal 101 Time frame for one channel 102 TDMA frame 103 LCCH super frame 111 Base station address information 201 Antenna 202 Radio interface 203 Radio reception section 204 Control section 205 Hybrid circuit 206 Information transmission section 207 wireless transmission unit 208 mobile terminal address information detection unit 209 mobile terminal address information transmission unit 210 base station address information detection unit 211 internal switch A1-2 signal arrival zone (normal) A1-2 'signal arrival zone (during monitoring) S1 command Input S2 Radio interface monitoring request S3 Mobile terminal mode transition S4 Transmission signal reception S5 Base station address information detection S6 Monitoring result notification S7 Monitoring result accumulation S8 Radio end notification S9 Return to wireless base station mode S1 Transition to the normal state S11 radio interface monitoring request

Claims (11)

[Claims] 1. A plurality of radio base stations, an exchange that accommodates the plurality of radio base stations, a radio interface maintenance device that is accommodated in the exchange, and a mobile terminal that is wirelessly connected to the radio base station. In a wireless interface monitoring system for a wireless base station in a mobile communication network, the wireless base station has a function of receiving and monitoring a call or control transmission signal from another wireless base station for a certain period, and another wireless base station. Radio interface monitoring of a radio base station characterized by having a function of periodically / spontaneously transmitting a signal transmitted from system. 2. The wireless base station wireless interface monitoring system according to claim 1, wherein the wireless base station is provided with a function of determining a transmitting station from a received signal and a function of notifying the exchange of the determination result. 3. The radio interface monitoring system for a radio base station according to claim 1, further comprising a function of notifying the exchange of the signal received by the radio base station, and a function of determining the transmitting station from the signal received by the exchange. 4. The function of determining a transmitting station from a received signal is achieved by detecting base station address information which is a number unique to each transmitting radio base station included in the received signal. The radio interface monitoring system for a radio base station according to claim 3. 5. A function of temporarily lowering the reception electric field strength of the receiving side wireless base station when the receiving side wireless base station is instructed by a maintenance device or a switchboard is provided, and a transmission signal from another wireless base station is transmitted. The radio interface monitoring system for a radio base station according to any one of claims 1 to 4, wherein the operation of the radio interface section of the transmission side radio base station is monitored as receivable. 6. A function of temporarily increasing the transmission signal strength of the transmission-side radio base station when the transmission-side radio base station is instructed by a maintenance device or a switchboard to enable reception by another radio base station. 5. The wireless interface monitoring system for a wireless base station according to claim 1, wherein the receiving wireless base station monitors the operation of the wireless interface unit of the transmitting wireless base station. 7. The wireless interface monitoring system for a wireless base station according to claim 1, further comprising means for allowing a maintenance person to specify a wireless base station for performing wireless interface monitoring from a switch by command input. 8. The radio base station according to claim 1, further comprising means for activating a radio base station for performing radio interface monitoring from a switch or a radio interface maintenance device to periodically specify a program. Wireless interface monitoring system 9. The radio base station according to claim 1, wherein the exchange is provided with a function of activating a radio interface monitoring process for a radio base station which has been inactive for a certain period of time detected by the exchange. Radio interface monitoring system. 10. The radio interface monitoring system for a radio base station according to claim 7, wherein a radio interface monitoring processing starting function is provided in the radio interface maintenance device. 11. The function of storing the wireless base station address information notified from each wireless base station in a storage device and comparing the newly notified wireless base station address information with the stored one is a switch or wireless. The interface maintenance device or the radio base station is provided in either one.
11. A radio interface monitoring system for a radio base station according to claim 10.