JP3751940B2 - Wireless base station switching method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a radio base station switching method, and in particular, when a failure occurs in a radio communication system having a slave device that provides a radio communication service in an area away from a service area provided by a radio base station connected by a wired cable. The present invention relates to a radio base station switching method.
[0002]
[Prior art]
A mobile radio communication system such as a personal digital cellular (PDC) is composed of a plurality of radio base stations that provide radio communication services to different service areas and a host device that supervises the plurality of radio base stations. Wireless communication by mobile radio stations (terminals) such as mobile phones (see, for example, Patent Document 1 or 2).
[0003]
In the above mobile radio communication system, in order to expand a radio communication service area of a specific radio base station or cover a communication failure area, the radio base station is connected to the radio base station by a wired cable such as an optical fiber. A method is adopted in which a slave device that operates by remote control of the wireless communication service and provides a wireless communication service in an extended service area or a poor communication area is installed as an extension station.
[0004]
FIG. 1 shows an example of a system in which a child device connected to such a wireless base station by a wired cable is installed. The wireless base station 1 has a service area in the dotted line centered on the wireless base station 1, and the wireless base station 2 has a service in the dotted line centered on the wireless base station 2 different from the service area of the wireless base station 1. The area. The slave device 3 is connected to the radio base station 1 via the cable 4 and operates by remote control from the radio base station 1, and the service area is within the dotted line centering on the slave device 3.
[0005]
The cable 4 is a wired cable using an optical fiber, a dedicated line or the like, and connects the wireless base station 1 and the slave device 3 to perform communication between the devices. The host device 5 is connected to the radio base station 1 and the radio base station 2 by a wired cable, and performs remote operation of the radio base station 1 and the radio base station 2 and connection and control of a telephone line network and the like.
[0006]
[Patent Document 1]
JP-A-9-182138 [Patent Document 2]
JP 2000-278303 A
[Problems to be solved by the invention]
In such a system in which a wireless communication service area is expanded by connecting a wireless base station and a slave device using a wired cable such as an optical fiber, some factor is caused in the cable 4 or the like connected between the wireless base station 1 and the slave device 3. When communication between the wireless base station 1 and the slave device 3 becomes impossible, it is determined whether the cause of the failure is an abnormality caused by disconnection of the cable 4 or a hardware failure of the slave device 3. In order to achieve this, it is necessary to go to the place where the child device 3 is located and inspect it, the work is complicated, and in the area where the child device 3 is in service until the failure is recovered, a wireless communication service is provided. There was a problem that it became impossible to provide.
[0008]
In view of the above problems, an object of the present invention is to provide a wireless base station device having a child device using a wired cable, where a failure due to some factor occurs between the child device and the wireless base station. When communication between slave devices becomes impossible, it is possible to easily determine whether the cause is an abnormality in a cable or the like, or an error in the hardware of the slave device itself, and the failure is a child If the device itself is not abnormal, it is intended to provide means for enabling the wireless communication service to be continued by the child device.
[0009]
[Means for Solving the Problems]
The present invention provides a wireless communication service to a first wireless base station that is connected to a host device and provides a wireless communication service to a first service area, and a second service area that is different from the first service area. A third service that is connected to the second radio base station and the first radio base station by a cable, operates by remote control from the first radio base station, and is adjacent to the second service area; In a wireless communication system including a child device that provides a wireless communication service to a region, when the child device detects a disconnection with the first wireless base station, the device is connected to the second wireless base station. It is characterized by having a means to transmit the failure information by radio.
[0010]
In addition, the wireless communication system is configured such that when the disconnection between the first radio base station and the slave device is not caused by a failure of the slave device itself and the slave device is operable, And a wireless communication service in the third service area via the second wireless base station by performing wireless connection with the two wireless base stations.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a block diagram schematically showing the configuration of a wireless communication system to which the present invention is applied.
[0012]
In FIG. 1, the wireless base station 1 has a service area in a dotted line centered on the wireless base station 1. The wireless base station 2 has a service area in a dotted line centered on a wireless base station 2 different from the wireless base station 1. The slave device 3 is connected to the radio base station 1 by a cable 4 and operates by remote control from the radio base station 1. The service area is within the dotted line centering on the slave device 3. It is arranged adjacent to.
[0013]
The cable 4 is a wired cable using an optical fiber, a dedicated line or the like, and connects the wireless base station 1 and the slave device 3 to perform communication between the devices. The host device 5 is connected to the radio base station 1 and the radio base station 2 by a wired cable, and performs remote operation of the radio base station 1 and the radio base station 2, connection and control of a telephone line network, and the like.
[0014]
FIG. 2 is a block diagram showing the configuration of the slave device 3 of the present invention.
[0015]
In FIG. 2, the slave device 3 includes an antenna 11 that performs wireless transmission and reception, a switch 12 that switches a connection between the antenna 11 and the reception unit 21 and the transmission unit 31 for each time slot, and converts a reception signal into a digital signal. For performing communication with the radio base station 1 via the cable 21, the demodulator 22 that performs orthogonal demodulation, the switch 23 that switches the connection between the demodulator 22 and the interface unit 13 and the data converter 14, and the cable 4. An interface unit 13 that performs communication between the radio base station 1 and the slave device 3 by converting to a transmission format, a switch 33 that switches a connection between the modulation unit 32 and the interface unit 13 and the data conversion unit 14, a cable 4 and an interface unit 13, a modulation unit 32 that performs quadrature modulation on the data of the radio base station 1 sent via the A A transmitter 31 for converting to a log signal and converting to a frequency for transmission, an air interface similar to a terminal for generating communication with the radio base station 2 are generated, and from the radio base station 2 A data conversion unit 14 is provided for converting the received signal into a format for transmission to the service area of the child device 3.
[0016]
With this configuration, the slave device 3 is moved from the wireless base station 1 to the service area of the slave device 3 via the cable 4, the interface unit 13, the switch 33, the modulation unit 32, the transmission unit 31, the switch 12, and the antenna 11 during normal operation. Send data to existing users. In addition, data transmitted from a user existing in the service area is received by the antenna 11 and relayed to the radio base station 1 via the switch 12, the receiving unit 21, the demodulating unit 22, the switch 23, the interface unit 13, and the cable 4. .
[0017]
On the other hand, when communication between the wireless base station 1 and the slave device 3 cannot be performed due to some cause such as a failure of the cable 4, failure information is created by the data conversion unit 14, and the switch 33, the modulation unit 32, and the transmission unit 31. By transmitting the failure information to the adjacent radio base station 2 via the switch 12 and the antenna 14, the slave device 3 requests a route for providing service to the service area via the radio base station 2.
[0018]
When this request is accepted, the switches 23 and 33 are switched so that the service area can transmit and receive data via the adjacent radio base station 2, and the data transmitted from the radio base station 2 is received by the antenna 11. The data is sent to the data converter 14 via the switch 12, the receiver 21, the demodulator 22, and the switch 23. In the data conversion unit 14, the received data is converted into a format for transmission to the service area of the child device 3, and the service of the child device 3 is transmitted from the antenna 11 via the switch 33, the modulation unit 32, the transmission unit 31, and the switch 12. Sent to users in the area.
[0019]
Data transmitted from a user in the service area of the slave device 3 is received by the antenna 11 and sent to the data converter 14 via the switch 12, the receiver 21, the demodulator 22, and the switch 23. In the data conversion unit 14, the received data is converted into a format for transmission to the radio base station 2, and transmitted from the antenna 11 to the radio base station 2 via the switch 33, the modulation unit 32, the transmission unit 31, and the switch 12. The
[0020]
FIG. 3 is a block diagram showing an operation state of the present invention when communication between the wireless base station 1 and the slave device 3 via the cable 4 is disabled in the system configuration shown in FIG.
[0021]
When a wireless communication service is provided to the service area of the child device 3 by connecting the wireless base station 1 and the child device 3 by a wired cable 4 using an optical fiber, a dedicated line, etc. and performing communication between the devices. In addition, when communication between the radio base station 1 and the slave device 3 is not possible due to some cause, failure information is notified from the radio base station 1 to the host device 5. It is impossible to determine whether it is a trouble 4 or a hardware trouble of the child device 3. Further, the service cannot be provided to the service area of the child device 3 until the failure is recovered, and the operation in the service area becomes impossible.
[0022]
Therefore, in the present invention, when a communication failure occurs between the wireless base station 1 and the child device 3, the child device 3 wirelessly notifies the adjacent wireless base station 2 of the failure information. Further, when the failure is a trouble of the cable 4 and the child device 3 itself can be operated, the child device 3 having the configuration shown in FIG. 2 secures communication with the radio base station 2. The operation of the child device 3 in the service area can be maintained.
[0023]
Next, the operation of the embodiment of the present invention will be described using a radio base station apparatus using a code division multiplexing and time division multiplexing (CDMA / TDD) radio system as an example.
[0024]
The radio base station 1 connected to the host device 5 via a cable has a service area in a dotted line centered on the radio base station 1, and the radio base station 2 connected to the host device 5 via a cable is also a radio base station. A service area is indicated by a dotted line centering on a radio base station 2 different from 1. The slave device 3 is connected to the radio base station 1 by a cable 4 and operates by remote control from the radio base station 1. The slave device 3 has a service area in the dotted line centering on the slave device 3. (Fig. 1).
[0025]
During normal operation, a wireless communication service for a user existing in the service area of the child device 3 performs wireless communication between the terminal owned by the user and the child device 3, and performs orthogonal demodulation or orthogonal modulation in the child device 3. The communication is performed by performing communication between the slave device 3 and the radio base station 1 via the cable 4, and performing communication with the baseband signal processing and the host device 5 in the radio base station 1.
[0026]
Accordingly, the slave device 3 during normal operation receives a transmission signal from a user existing in the service area of the slave device 3 with the antenna 11, switches the switch to the reception unit 21 side with the switch 12, and switches with the reception unit 21. Unnecessary radiation is suppressed, converted into a digital signal, quadrature demodulation is performed by the demodulator 22, and transmitted to the interface unit 13 via the cable 4 via the switch 23 whose path is switched. The data is converted to a transmission format to be transmitted to the wireless base station 1 via the cable 4.
[0027]
Further, the data signal received from the radio base station 1 via the cable 4 is changed to a format for processing by the slave unit 3 in the interface unit 13, and passes through the switch 33 whose path is switched to the modulation unit 32. Then, the modulation unit 32 performs quadrature modulation, the transmission unit 31 performs conversion to an analog signal, conversion to a transmission frequency, and suppression of unnecessary radiation, and the switch 12 switches the switch to the transmission unit 31 side, and the antenna The data is transmitted to the user who is communicating in the service area of the child device 3 via the terminal 11.
[0028]
Normally, the radio base station 1 transmits, for example, a health check signal toward the child device 3 or periodically transmits a signal determined from the child device 3 toward the radio base station 1. Here, an example in which a health check signal is transmitted from the slave device 3 to the radio base station 1 will be described. When the cable 4 is normal and a health check signal is transmitted from the slave device 3 and received by the radio base station 1, the radio base station 1 that has received the health check signal returns a similar signal to the slave device 3. The slave device 3 receives this reply signal and confirms the continuity by confirming an error in the received data.
[0029]
When the communication between the wireless base station 1 and the slave device 3 via the cable 4 is not possible due to the abnormality of the cable 4 (FIG. 3), there is no response to the health check signal transmitted from the slave device 3, and the slave device 3 This means that no reception is performed. In such a state, the slave device 3 detects failure information called a line disconnection alarm (hereinafter referred to as a line disconnection ALM). Similarly, when the wireless base station 1 does not receive the health check signal transmitted from the wireless base station 1 again, the wireless base station 1 detects the line disconnection ALM as failure information.
[0030]
FIG. 4 is a flowchart showing the operation of the present invention when communication between the wireless base station 1 and the slave device 3 is disabled.
[0031]
In FIG. 4, when the slave device 3 detects a line disconnection ALM with the wireless base station 1 (F1), it transmits a transmission signal including information on the line disconnection ALM to the wireless base station 2 that is an adjacent station. The radio base station 2 receives the signal and reports it to the host device 5. The host device 5 determines whether or not the child device 3 is operable by checking the failure information from the child device 3 reported from the wireless base station 2 and the failure information reported from the wireless base station 1. (F2).
[0032]
In the host device 5,
Failure information from the wireless base station 1: Line disconnection ALM
Failure information from the child device 3: When a hardware abnormality occurs, the child device 3 itself is abnormal, and the operation of the child device 3 in the service area is impossible, so the operation of the child device 3 is stopped ( F3).
[0033]
on the other hand,
Failure information from the wireless base station 1: Line disconnection ALM
Fault information from slave unit 3: Line disconnection ALM
If the line disconnection ALM is detected in both, it is determined that the operation of the child device 3 can be continued because there is no problem in the child device 3 itself (F4).
[0034]
If it is determined that operation is possible, the child device 3 communicates between the child device 3 and the wireless base station 2 (F5), and the wireless base station 2 obtains operation information from the child device 3 (F6). From the operation information of the slave device 3 obtained from the slave device 3, the radio base station 2 can normally communicate between the slave device 3 and the radio base station 2, and the call processing capability of the radio base station 2 is transferred to the slave device 3. It is determined whether there is room to allocate (F7).
[0035]
As a result, if this wireless communication cannot be performed normally or the call processing capability of the wireless base station 2 is not sufficient, it is determined that the operation of the child device 3 is impossible, and the operation of the child device 3 is stopped. (F8). On the other hand, if it is determined that the wireless communication between the child device 3 and the wireless base station 2 can be normally performed, and that the call processing capability of the wireless base station 2 is sufficient and a part can be allocated to the child device 3 ( F9), the radio base station 2 wirelessly transmits operational information such as user information to the child device 3 and enters preparations for resuming operation (F10). The slave device 3 resumes operation as soon as it is ready (F11).
[0036]
Next, the communication procedure of the radio base station 1, the radio base station 2, and the slave device 3 for the slave device 3 to resume operation will be described with reference to FIG.
[0037]
In a normal operation state, as shown in FIG. 1, the radio base station 1 and the slave device 3 are connected by a cable 4 and communicate via the cable 4 (C1). When a line disconnection between the wireless base station 1 and the slave device 3 occurs due to some factor (C2), the wireless base station 1 and the slave device 3 detect a line disconnection ALM. At this time, the slave device 3 enters an operation for transmitting the failure information of the device to the radio base station 2 which is an adjacent station. In the present invention, the subsequent operation of the child device 3 is referred to as an ALM transmission mode.
[0038]
First, the slave device 3 creates transmission data in the same format (air interface) as that of the terminal station so that wireless connection with the wireless base station 2 can be made, and performs transmission (C3). The radio base station 2 that has received the transmission data requests data related to authentication from the slave device 3 in order to perform the authentication work as in the case of reception from the terminal station (C4). On the other hand, the slave device 3 performs transmission using data having a dedicated authentication number that can be recognized as the ALM transmission mode (failure information) from the slave device 3 in the wireless base station 2 (C5). .
[0039]
The radio base station 2 that has received this data performs the same authentication work as when handling received data from a normal terminal. If it is determined by authentication that the received data is in the ALM transmission mode, a communication line connection is established with the slave device 3 in a dedicated format. This communication line connection may have the same format as that of the terminal station, but if a dedicated format is used, interference with the user terminal station in the radio base station 2 can be suppressed. In the present invention, the subsequent operation of the radio base station 2 is referred to as a slave device communication mode. In this slave device communication mode, preparations for resuming operation of the slave device are made.
[0040]
First, in order to know the operation information of the slave device 3 when the slave device 3 detects a line disconnection ALM, for example, call processing information such as the number of users in communication and each user information, the slave device 3 A state monitoring request is made to (C6). On the other hand, the slave device 3 reports operational information (C7). Similarly, the wireless base station 1 to which the child device 3 is connected also obtains operation information for the child device 3 when the line disconnection ALM is detected via the host device 5 (C8).
[0041]
From these operation information, the call processing amount required in the service area of the slave device 3 is compared with the call processing amount not used in the radio base station 2, and the optimum for the call processing capacity of the radio base station 2 The call processing capacity is allocated to the service area of the radio base station 2 and the service area of the child device 3. As a result, the radio base station 2 is ready for communication with the slave device 3, and sends an instruction to resume operation to the slave device 3 (C9). In response to the operation resumption instruction, the child device 3 returns to the radio base station 2 that the operation has been resumed (C10).
[0042]
Thereafter, the operation of the child device 3 is resumed, and the child device 3 is operated from the wireless base station 2 via wireless. This wireless operation is continued until the cable 4 is restored, and when the line fault is recovered, communication via the cable 4 is resumed. Therefore, even if some abnormality occurs in the cable 4, it is possible to continue the service in the service area of the child device 3.
[0043]
In the embodiment, the case where the wireless base station 2 determines whether or not to operate the child device when the line disconnection ALM is detected is described as an example. However, it is determined that the received data is in the ALM transmission mode by authentication. Thereafter, all the determinations as to whether or not the child device can be operated are performed by the higher-level device 5, and the radio base station 2 can be controlled from the higher-level device 5 based on the result.
[0044]
6 and 7 show the relationship between the radio time slots of the radio base station 2 and the slave device 3 in the ALM transmission mode in the case of the TDD system and the relationship of the radio time slots of the radio base station 2 and the slave device 3 when the operation is resumed. Is shown.
[0045]
In the ALM transmission mode, the slave device 3 uses the same air interface as the terminal. In addition, since there is no remote operation of the radio base station 1 and the host device 5, the operation of generating dedicated transmission data for performing authentication is performed by the data conversion unit 14. Accordingly, the path of the switch 33 is switched from the modulation unit 32 to the data conversion unit 14.
[0046]
The transmission data generated by the data conversion unit 14 is transmitted to the radio base station 2 by the antenna 11 via the switch 33, the modulation unit 32, the transmission unit 31, and the switch 12. Here, since the air interface is the same as that of the terminal, the transmission frequency of the slave device 3 is the same as the transmission frequency of the terminal. That is, the circuit configuration of the transmission unit 31 is easier in the time division method (TDD method). However, in the circuit of the transmission unit 31, it can be used if the transmission frequency of the slave device 3 corresponds to the transmission frequency of the terminal.
[0047]
First, so that the wireless base station 2 can be wirelessly connected, the slave device 3 creates and transmits transmission data through the same air interface as the terminal station, and the wireless base station 2 receives this signal (BS3- 1). On the other hand, the radio base station 2 transmits a data request for authentication to the child device 3 to perform the authentication work, and the child device 3 receives this signal (BTS2-1). The slave device 3 transmits using data having a dedicated authentication number that can be recognized as the ALM transmission mode from the slave device 3 in the wireless base station 2, and the wireless base station 2 receives this signal ( BS3-2). During this communication period, the radio base station 2 is also communicating with the terminal in the service area of its own station (MS2-1, MS2-2). In this way, the slave device 3 communicates only with the radio base station 2.
[0048]
Next, when the child device 3 resumes operation via the wireless base station 2, the role of the child device 3 is to receive the transmission frequency of the wireless base station 2 once by the child device 3, and to receive the data in the service area of the child device 3 To re-send to. Therefore, it is necessary to change the air interface of the reception signal of the radio base station 2 to the air interface of the slave device 3.
[0049]
Therefore, the signal of the radio base station 2 is received by the antenna 11, the demodulation is performed by the switch 12, the receiving unit 21, and the demodulating unit 22, and via the switch 23 whose path is switched to the data converting unit 14, The data conversion unit 14 converts the data into the transmission air interface of the child device 3. The converted data is transferred from the antenna 33 to the service area of the child device 3 via the modulation unit 32, the transmission unit 31, and the switch 12 from the switch 33 whose path is switched to the data conversion unit 14-modulation unit 32. Is transmitted, it becomes possible to resume the operation in the slave device 3.
[0050]
Since it is necessary to always communicate user information and the like between the wireless base station 2 and the slave device 3, dedicated time slots are provided (BTS2, BS3). In addition, because of the operational state, the wireless base station 2 is communicating with a terminal in its own service area (MS2-1, MS2-2), and similarly, the slave device 3 is also communicating with a terminal in its own service area. Yes (MS3-1, MS3-2). The MS 3-1 and MS 3-2 are data-converted by the slave device 3 and assigned to a predetermined time slot of the radio base station 2 based on the user information. In this way, a dedicated time slot between the radio base station 2 and the slave device 3 is preferentially assigned, and communication with the terminal is performed using the remaining time slot.
[0051]
FIG. 8 is a block diagram showing an operation state of the present invention when a failure occurs in the radio base station 1 instead of the cable 4 in the system configuration shown in FIG. is there.
[0052]
When a serious failure occurs in the radio base station 1 and a system stop of the radio base station occurs, communication with the child device 3 becomes impossible, and the host device 5 has fault information that the system of the radio base station 1 is stopped. Will occur.
[0053]
At this time, since the slave device 3 detects the line disconnection ALM with the wireless base station 1 via the cable 4, the wireless connection with the adjacent wireless base station 2 is performed as in the case of the line disconnection ALM due to the cable 4 abnormality. The radio base station 2 acquires the operation information of the radio base station 1 from the higher-level device 5. Therefore, by restarting the operation of the child device 3 in the same manner as described above, it is possible to perform an operation that does not cause a system stop in the service area of the child device 3.
[0054]
【The invention's effect】
In the present invention, when a failure such as a line disconnection occurs in a cable or the like connecting the wireless base station and the slave device, the slave device includes means for reporting the failure information to the adjacent station by radio. It becomes easy to determine whether or not the child device can be operated.
[0055]
In addition, since it is possible to operate the child device by wirelessly connecting to a wireless base station adjacent to the child device, if it is determined that there is no problem with the child device itself, the service area of the child device is It becomes possible to operate.
[Brief description of the drawings]
FIG. 1 is a block diagram schematically showing a configuration of a wireless communication system to which the present invention is applied.
FIG. 2 is a block diagram showing a configuration of a child device of the present invention.
FIG. 3 is a block diagram showing an operation mode in a cable abnormal state according to the present invention.
FIG. 4 is a flowchart showing a state transition of a slave device when the cable is abnormal according to the present invention.
FIG. 5 is a diagram showing a communication procedure of the wireless communication system when the cable is abnormal according to the present invention.
FIG. 6 is an image diagram of radio time slots of a radio base station and a slave device in the ALM transmission mode of the present invention.
FIG. 7 is an image diagram of radio time slots of a radio base station and a slave device in resuming operation of the present invention.
FIG. 8 is a block diagram showing a configuration of a radio base station switching method according to another factor of the present invention.
[Explanation of symbols]
1, 2 Radio base station 3 Slave device 4 Cable 5 Host device 11 Antenna 12, 23, 33 Switch 13 Interface unit 14 Data conversion unit 21 Reception unit 22 Demodulation unit 31 Transmission unit 32 Modulation unit

Claims (5)

A wireless communication service is provided to a first wireless base station that is connected to a host device and provides a wireless communication service to a terminal in the first service area, and to a terminal in a second service area that is different from the first service area. A second radio base station to be provided, adjacent to the second service area, connected to the first radio base station by a cable, and operated by remote control from the first radio base station In a wireless communication system including a slave device that provides a wireless communication service to terminals in the third service area,
Child device, the first when it detects line disconnection between the radio base station, for the second radio base station, means for transmitting the failure information of the device at the terminal and the same air-interface A radio base station switching method characterized by comprising:   When the line disconnection between the first radio base station and the slave device is not due to a failure of the slave device itself, a wireless connection is made between the slave device and the second radio base station to 2. The radio base station switching system according to claim 1, further comprising means for providing a radio communication service in a third service area via the second radio base station. An antenna that performs transmission and reception by radio, a reception unit that converts a signal received by the antenna into a digital signal, a demodulation unit that orthogonally demodulates the digital signal, and the first radio base station via the cable An interface unit that performs conversion to a transmission format for communication, a modulation unit that performs orthogonal modulation on the data of the first radio base station transmitted via the cable and the interface unit, A communication unit that converts the digital signal into an analog signal and converts the signal into a frequency for transmission into the third service area via the antenna; and for communication with the second radio base station An air interface similar to that of the terminal is generated, and a signal received from the second radio base station is converted into a format for transmission to the third service area. A data conversion unit, a first switch for switching a connection between the antenna, the reception unit, and the transmission unit for each time slot, and a connection between the demodulation unit, the interface unit, and the data conversion unit a second switch for switching the radio of claim 1 or 2, characterized in that it comprises a third switch for switching the connection between the modulation section and the interface unit and the data conversion unit A slave device used in the base station switching system. Wherein the data conversion unit according to claim 3, characterized in that it has the ability to create fault information of the device when the communication between the first radio base station and the child device is no longer performed Child device. A wireless communication service is provided to a first wireless base station that is connected to a host device and provides a wireless communication service to a terminal in the first service area, and to a terminal in a second service area that is different from the first service area. A second radio base station to be provided, adjacent to the second service area, connected to the first radio base station by a cable, and operated by remote control from the first radio base station A radio base station switching method in a radio communication system including a slave device that provides a radio communication service to a terminal in a third service area,
When communication by the cable between the slave device and the first radio base station becomes impossible, the slave device sends a transmission signal including information on line disconnection ALM to the second radio base station. On the other hand, the second radio base station receives the transmission signal including the information of the transmitted line disconnection ALM, and determines the failure information of the child device by transmitting the same air interface as that of the terminal . As a result of the determination, when the slave device itself is not due to a failure and there is room for allocating the call processing capability of the second radio base station to the slave device, the slave device and the second radio base station A wireless base station switching method, wherein a wireless communication service in the third service area is provided via the second wireless base station by establishing a wireless connection between them.

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