JP2003023389A - Radio base station equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress time for a sector to fall into system down to a minimum by completing switching of cards in a short time when a channel control card is broken down. SOLUTION: Each of channel control cards 4 has a CPU and a memory and by operating the CPU according to program data loaded on the memory, a plurality of channel control parts are provided. Each of channel control parts has a function for controlling a common channel for each sector together with the control of an information channel for each of mobile stations. Therefore, when the channel control card 4 under the control of the common channel is broken down, under the control of a main control part 6, such a card is switched to the other channel control card 4. Thus, the common channel can be immediately controlled and time for the sector to fall into system down can be suppressed to a minimum.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio base station apparatus that constitutes a mobile communication system, and more particularly to a recovery control technique when a failure occurs in the radio base station apparatus.

[0002]

2. Description of the Related Art FIG. 4 is a block diagram showing an overall structure of a conventional mobile communication system, and FIG. 5 is a block diagram showing a radio base station apparatus constituting the system of FIG. In the mobile communication system shown in FIG. 4, a wireless base station device (BTS: Base Tra
The nsceiver station) 102 controls four areas around it, that is, the sectors 104 (SC1 to SC4), and the mobile station 106 in each sector 104 receives a wireless control device (BSC :) via the wireless base station device 102. Base S
communication with the mobile station, and also with other mobile stations.

The radio base station apparatus 102, as shown in FIG. 5, has a corresponding antenna 11 for each sector 104.
0 (only one antenna 110 is shown in FIG. 4), and for each antenna 110, a transceiver 112
And a wireless unit 114. Transmitter is antenna 1
The radio unit 114 transmits and receives a high frequency signal through 10, and the radio unit 114 generates a base band signal from the high frequency signal received by the transmission and reception unit 112 and outputs the base band signal to the bus line 115. And is supplied to the transmitting / receiving unit 112.

The radio base station apparatus 102 further includes a plurality of channel control cards 11 connected to the bus line 115.
6 (channel control block), and main controller 118
Is equipped with. Each channel control card 116 is provided with a plurality of channel control units, and the main control unit 118 allocates different channel control units to each sector 104 and to each mobile station 106, and causes each channel control unit to perform channel control. . Specifically, the channel control performed by the channel control unit includes channel control regarding a common channel defined for each sector 104 and channel control regarding an information channel defined for each mobile station 106.

Further, each channel control card 116 is
CPU, including CPU (Central Processing Unit) and memory
Operates based on the program data stored in the memory to execute at least a part of the channel control performed by each channel control unit of the channel control card 116. And the required number of specific channel control cards 11
6, the program data relating to the control of the common channel is loaded in the memory, and the program data relating to the control of the information channel is loaded in the memory of the remaining channel control card 116. Therefore, in the channel control card 116 loaded with the program data for the common channel, all the channel control units control the common channel,
In the channel control card 116 loaded with the program data for the information channel, all channel control units control the information channel.

One channel control card 116
If, for example, eight channel control units are provided, since the radio base station device 102 controls four sectors 104 in this example, only one channel control card 116 has the common channel control program. The data will be loaded. If the wireless base station device controls more than eight sectors, there will be a plurality of channel control cards in charge of controlling common channels.

The baseband signal output by the radio section 114 is output to the radio control unit 108 through the interface section 120 after the channel control section of the channel control card 116 assigned by the main control section 118 performs channel control. On the other hand, the wireless controller 108
The baseband signal from is input through the interface unit 120, channel control is performed by the channel control unit, and the baseband signal is output to the wireless unit 114.

[0008]

In the radio base station apparatus 102 configured as above, when a failure occurs in a certain channel control card 116, for example, under the control of the main control unit 118, it becomes vacant. Failure recovery was performed by promptly switching to the existing channel control card 116. However, the channel control card 116
It takes a certain period of time to switch between the two, and during that time, all the mobile stations 106 that were in charge of channel control by the failed channel control card 116 cannot perform communication.

Therefore, conventional measures have been taken to minimize the effect of the channel control card 116 when it fails. For example, Japanese Patent Laid-Open No. 2000-11
Japanese Patent No. 528 discloses a method of distributing channel control units assigned to the mobile station 106 and the like. In this method, when assigning a channel control unit to each mobile station 106, the same channel control card 116 is used.
It is prevented that the channel control unit in the mobile station 106 is centrally assigned to the mobile station 106 in a specific sector 104. As a result, even if one channel control card 116 fails, the system of one sector 104 as a whole goes down, and all mobile stations 1 in that sector 104 are down.
It is possible to avoid a situation in which 06 cannot communicate at once.

However, even if the allocation is distributed in this way, if the channel control card 116 loaded with the program data for the common channel fails, all the sectors to which the channel control section of the card is allocated are destroyed. At 104, communication of all mobile stations becomes impossible.

Further, the recovery from this state can be performed, for example, by switching to use another normal channel control card 116 for controlling the common channel, but in this case, switching of the channel control card 116 takes a very long time. There is a problem of this. That is, if there is a channel control card 116 in which all channel control units are on standby, that card is used as a new card for the common channel.
In the actual situation, it is expected that there are often no completely waiting cards. In that case, for example, the channel control card 116 (first
One or more channel control cards 116), while some channel controllers are assigned to the mobile station, but some channel controllers are waiting. Search (for the second channel control card), and for the mobile station 106 to which the channel control unit on the first channel control card is assigned, control the channel on standby on the second channel control card. Allocate parts (expulsion allocation). Then, the program data for controlling the common channel is loaded into the memory of the first channel control card, and the channel control unit of the new channel control card 116 is assigned to the sector 104. As described above, when the channel control card 116 loaded with the program data for the common channel fails, it is necessary to perform the eviction assignment and the loading of the program data, so that it takes a very long time to switch the cards and the communication is interrupted. It takes a long time to do.

Further, in the conventional radio base station apparatus 102, the channel control card 116 for the common channel is used.
Cannot be used to control the information channel, and therefore the channel control card 116 that was controlling the common channel failed, so switch to another card as described above and then recover the failed card, The restored card can only be used to control the common channel. Therefore, the restored card will be used only as a spare card for the common channel, and there is room for improvement in effective utilization of resources.

The present invention has been made in order to solve such a problem, and an object thereof is to complete switching of channel control blocks when a channel control block fails, in a short time, and to make a sector system down. Another object of the present invention is to provide a wireless base station device capable of minimizing the time when Another object of the present invention is to provide a radio base station apparatus with high resource reusability.

[0014]

In order to achieve the above object, the present invention provides a plurality of channel control blocks each having a plurality of channel control units for performing channel control,
A main control unit that assigns different channel control units to each sector and mobile station to control each channel control unit to perform channel control, and the channel control unit assigned to each sector is associated with a common channel defined for each sector. Channel control is performed, and the channel control unit assigned to the mobile station performs channel control related to an information channel defined for each mobile station,
In a radio base station device of a mobile communication system, each of the channel control blocks includes the channel control unit that performs channel control related to the common channel and the channel control unit that performs channel control related to the information channel. It is characterized by including.

As described above, according to the present invention, since each channel control block includes the channel control unit that controls the channel related to the common channel, the channel control including the channel control unit that controls the channel of the common channel is performed. Even if a block fails and switches the channel control block, it is sufficient to simply assign the channel control units of other channel control blocks to the sector. Therefore, unlike the prior art, it is not necessary to perform eviction allocation, and it is not necessary to load program data for performing channel control of the common channel into another channel control block. Therefore, the switching of the channel control block can be completed in a short time, and the time during which the system goes down in the sector can be minimized.

Further, according to the present invention, since each channel control block is provided with a channel control unit for controlling the information channel, when the channel control block used for controlling the common channel fails and is then restored. , The block can also be used to control the information channel. Therefore, the reusability of resources is improved.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION Next, embodiments of the present invention will be described with reference to the drawings. 1 is a block diagram showing an example of a radio base station apparatus of a mobile communication system according to the present invention, and FIG. 2 is a block diagram showing a channel control card constituting the radio base station apparatus of FIG. In FIG.
Elements that are the same as are labeled with the same reference numerals. The radio base station apparatus 2 of the present embodiment shown in FIG. 1 has the same basic configuration as the radio base station apparatus of FIG. 5, but in terms of the configurations of the channel control card 4 and the main control unit 6. It is different from the conventional wireless base station device. Hereinafter, this point will be mainly described.

Each channel control card 4 is provided with eight channel control sections 8 (FIG. 2) as an example, and the main control section 6 is provided for each sector 104 and for the mobile station 1.
A different channel control unit 8 is assigned to each 06 to cause each channel control unit 8 to perform channel control, and the own device, that is, the radio base station device 2 is assigned to the channel control unit 8 to perform related channel control.

Channel control performed by each channel control unit 8 is specifically, channel control regarding a common channel defined for each sector 104, channel control regarding an information channel defined for each mobile station 106, and radio. Base station device 2 and radio control device 108
(FIG. 4) and includes channel control for the shared control channel defined between More specifically, the channel control unit 8 controls transmission / reception through the communication channel of the sector 104, synthesizes / disassembles transmitted / received signals, and further performs error detection / error recovery processing.

The common channel is specifically B
The information channels are CCH, PCH, FACH / RACH, and the information channels are, for example, DTCH and UTCH for actually transmitting voice and data between mobile stations 106, and the shared control channels are SDCCH and ACCH.

In the present embodiment, each channel control card 4 has a card controller in appearance, in which each unit such as the channel control unit 8 is composed of circuit elements mounted on a common circuit board (not shown). And is installed in a predetermined card slot of the radio base station device casing.

Each of the channel control cards 4 includes a CPU and a memory (not shown), and the CPU operates based on the program data held in the memory to perform at least the channel control performed by each channel control unit 8 of the channel control card 4. Do some. In all the channel control cards 4 in the present embodiment, the memory is loaded with the program data relating to the control of the information channel and the program data relating to the control of the common channel. Therefore, each channel control unit 8 of each channel control card 4 can control the common channel together with the information channel, and when the radio base station device 2 is activated, the common channel of all the channel control cards 4 is controlled. Regarding the channel control, it is already in the standby state, and when the allocation is performed, the common channel can be immediately controlled.

The channel control card 4 also includes a monitoring unit 10 that detects a failure that has occurred in itself and notifies the main control unit 6 that a failure has occurred. When the main controller 6 receives a notification of failure occurrence from the monitor 10 of the channel control card 4, the sector 1 to which the channel controller 8 in the same channel control card is allocated
04 or the mobile station 106, the channel control unit 8 in another channel control card 4 is allocated.

Next, in the radio base station apparatus 2 configured as described above, the operation when the channel controller 8 for controlling the common channel is reassigned when a failure occurs will be described. FIG. 3 is a flowchart showing the operation of the wireless base station device according to the embodiment. Hereinafter, FIG. 3 will also be referred to as appropriate. Sector 104 or mobile station 106
When some failure occurs in the channel control card 4 including the channel control section 8 assigned to (FIG. 4) and the like, the monitoring section 10 detects the failure and notifies the main control section 6 that the failure has occurred. As a result, the main control unit 6 first recognizes the card in which the failure has occurred (step S1), and determines whether the channel control unit 8 included in the failed card is assigned to the sector 104 and is performing the common channel control operation. The determination is made (step S2).

If the result of this determination is Yes, the main controller 6
Searches for the channel control card 4 which is on standby and can be allocated to the sector 104 based on the allocation data held by itself (step S3), and the searched channel control card 4 can be actually used. It is determined whether or not (step S4). If the determination result is also Yes, the main control unit 6 assigns the channel control unit 8 on the assignable channel control card 4 to the sector 104 to which the channel control unit 8 of the defective card was assigned. , Instructing the same channel control unit to start operation (step S5).

At this time, as described above, since all the channel control cards 4 are in the standby state regarding the control of the common channel, the operation necessary for switching the channel control card 4 is to set the new channel control unit 8 to the sector 104. , And thus the switching of the channel control card 4 is completed in a very short time. After that, the main control unit 6 is in a state of waiting for the occurrence of a new failure regarding the failure recovery.

If the determination result in step S2 is No, it is not necessary to allocate a new channel control unit 8 to the sector 104, and therefore the channel control card 4 is not switched as described above. A predetermined control for recovering the faulty card is performed (step S6) to stop the operation related to the fault recovery.
When the determination result of step S4 is No, the channel control unit 8 cannot be newly allocated, and thus the operation related to the failure recovery is stopped. As a result of the search in step S3, the plurality of channel control cards 4
, The channel control card 4 may be selected from the highest ranking according to the preset ranking.

As described above, in the radio base station apparatus 2 according to the present embodiment, each channel control card 4 includes the channel control unit 8 for controlling the channel related to the common channel. Even when the channel control card 4 including the controlling channel control unit 8 fails and the channel control card 4 is switched, it is only necessary to assign the channel control unit 8 of the normal channel control card 4 to the sector 104. Therefore, unlike the conventional case, it is not necessary to perform the eviction assignment, and it is not necessary to load the program data for performing the channel control of the common channel into the new channel control card 4. Therefore, the switching of the channel control card 4 can be completed in a short time, and the system down time of the sector 104 can be minimized.

Further, in the embodiment, since all the channel control units 8 of the respective channel control cards 4 can control the information channels, the channel control card 4 used for the control of the common channel fails, When subsequently restored, the card can also be used to control the information channel. Therefore, the reusability of resources is improved.

By the way, when a failure occurs in a certain channel control card 4, the information transmitted through the information channel and the common channel held by the channel control unit 8 of the same channel control card at that time is lost. , Will not be transmitted to the corresponding mobile station 106.

Therefore, the main controller 6 causes the radio controller 10 to operate.
The information to be transmitted through the information channel and the common channel, which is received from the S8, is not only supplied to the channel control unit 8 assigned to the mobile station 106 that should receive the information, but also the sector 104 and the mobile station 106.
It is also effective to perform a broadcast delivery to and hold the channel control units 8 of other cards which are not assigned to the card and are in a standby state. As a result, even if the channel control card 4 fails and the channel control card 4 is switched, the channel control unit 8 of the new channel control card 4 outputs the above information to be transmitted through the failed channel control card 4. Since the information is held, it is possible to immediately transmit the held information to the corresponding mobile station 106 after switching the card, and thus it is possible to avoid the loss of information due to a failure.

Further, after the information of the information channel and the common channel transmitted from the mobile station 106 is processed by the corresponding channel control unit 8, the main control unit 6 receives the information.
If the configuration is such that the information is broadcast to the channel control unit 8 of another card which is not assigned to the sector 104 and the mobile station 106 and is in a standby state, and is held, channel control is performed due to a failure. It is possible to avoid the loss of information from the mobile station 106 due to a failure when the card 4 is switched.

In this embodiment, all the channel control units 8 of each channel control card 4 can control the common channel as well as the control of the information channel. A part of them may control the information channel, and another channel control unit may control the common channel. In that case, the same effect can be obtained.

[0034]

As described above, according to the present invention, since each channel control block includes the channel control unit for performing the channel control for the common channel, the channel control unit for performing the channel control of the common channel. Even when the channel control block including the channel failure occurs and the channel control block is switched, it is only necessary to assign the channel control units of other channel control blocks to the sectors. Therefore, unlike the prior art, it is not necessary to perform eviction allocation, and it is not necessary to load program data for performing channel control of the common channel into another channel control block. Therefore, the switching of the channel control block can be completed in a short time, and the time during which the system goes down in the sector can be minimized.

Further, in the present invention, since each channel control block is provided with the channel control unit for controlling the information channel, when the channel control block used for controlling the common channel fails and is then restored. , The block can also be used to control the information channel. Therefore, the reusability of resources is improved.

[Brief description of drawings]

FIG. 1 is a block diagram showing an example of a wireless base station device of a mobile communication system according to the present invention.

FIG. 2 is a block diagram showing a channel control card which constitutes the radio base station apparatus of FIG.

FIG. 3 is a flowchart showing an operation of the wireless base station device according to the embodiment.

FIG. 4 is a configuration diagram showing an entire conventional mobile communication system.

5 is a block diagram showing a radio base station apparatus that constitutes the system of FIG.

[Explanation of symbols]

2 ... Wireless base station device, 4 ... Channel control card,
6 ... Main control unit, 8 ... Channel control unit, 10 ... Monitoring unit, 102 ... Radio base station device, 104 ... Sector, 106 ... Mobile station, 108 ... Radio control device, 11
0 ... Antenna, 112 ... Transceiver, 114 ... Radio, 116 ... Channel control card, 118 ... Main control, 120 ... Interface.

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Claims (8)

[Claims] 1. A plurality of channel control blocks each having a plurality of channel control units for performing channel control, and different channel control units for each sector and mobile station are assigned to allow each channel control unit to perform channel control. A channel control unit assigned to a sector performs channel control on a common channel defined for each sector, and the channel control unit assigned to a mobile station uses an information channel defined for each mobile station. A radio base station apparatus for a mobile communication system, which performs related channel control, wherein the channel control block performs channel control related to the common channel and channel control related to the information channel. The channel The radio base station apparatus characterized by comprising a control unit. 2. The radio base station according to claim 1, wherein each of the channel control blocks includes the channel control unit that performs channel control regarding the common channel and channel control regarding the information channel. apparatus. 3. The channel control block includes a monitoring unit that detects a failure that has occurred in its own block and notifies the main control unit that a failure has occurred. Wireless base station device. 4. When the main control unit receives a failure occurrence notification from the monitoring unit of the channel control block, the main control unit separates the sector and mobile station to which the channel control unit is assigned in the same channel control block. The radio base station apparatus according to claim 1, wherein the channel control unit in the channel control block is assigned. 5. The channel control block is a CPU
2. The radio base station according to claim 1, further comprising a memory and a memory, wherein the CPU operates based on program data held in the memory to execute at least a part of channel control performed by each channel control unit. apparatus. 6. The radio base station apparatus according to claim 1, wherein each channel control section in the channel control block is configured by a circuit element mounted on a common circuit board. 7. The common channel is BCCH, PC
The radio base station apparatus according to claim 1, comprising H and FACH / RACH. 8. The information channel is DTCH, UT
The radio base station apparatus according to claim 1, comprising a CH.