CN101222747A - Subdistrict frequency point management method and network side equipment - Google Patents

Abstract

The invention discloses a cell frequency point management method, which comprises the following steps: A, a base station reports the number of frequency points supported by a local cell to a network side; B, the network side carries out cell frequency point management for the base station according to the reported number of frequency points. The invention also discloses a network side device which comprises a receiving module for receiving the number of frequency points supported by the local cell reported by the base station and a cell frequency point management module for carrying out cell frequency point management for the base station according to the reported number of frequency points. According to the invention, the base station reports the number of frequency points supported by the local cell to the network side, thereby enabling the network side to accurately know the real number of frequency points supported by the local cell in the base station, and consequently carry out accurate cell frequency point management.

Description

Subdistrict frequency point management method and network equipment

Technical field

The present invention relates to wireless communication field, particularly a kind of subdistrict frequency point management method and a kind of network equipment.

Background technology

Introduce N frequency notion in the TD-SCDMA system, promptly there are a plurality of frequencies in a sub-district, and one of them is as the dominant frequency point, and other frequencies are as auxilliary frequency.Network equipment such as radio network controller according to the subdistrict frequency point number of configuration, require base station such as Node B when setting up in the sub-district, set up the frequency of respective numbers; When network capacity changed, under the prerequisite of not deleting the sub-district, radio network controller was realized assisting the deletion and the increase of frequency by the cell re-configuration process.In the prior art, the process of setting up of N frequency point cell and the reprovision process of N frequency point cell are respectively as depicted in figs. 1 and 2.

Fig. 1 shows the process of setting up of N frequency point cell, and this process comprises the steps:

In step 11, radio network controller is set up request message according to the structure of the allocating cell frequency number in self sub-district, sends to Node B.Here, allocating cell frequency number is the network capacity during according to networking, and static configuration is in radio network controller.

In step 12, Node B receives after the sub-district sets up request message, carrying out the sub-district according to the allocating cell frequency number that issues sets up, after finishing the configuration of dominant frequency point, promptly return the sub-district to radio network controller and set up response, the logic district frequency number of the newly-built sub-district of radio network controller correspondence is set to above-mentioned allocating cell frequency number.

Fig. 2 shows the cell re-configuration process of N frequency point cell, and this process comprises the steps:

Step 21, break down when the auxilliary frequency relevant treatment unit of Node B side, relevant home cell capacity changes (minimizing) and auxilliary frequency state enters down state, Node B reports the current capacity and the auxilliary frequency state change information of relevant home cell by resource status Indication message or checking response message.

The auxilliary frequency state change information that step 22, radio network controller report according to Node B, need to determine the auxilliary frequency of deletion, upgrade logic district frequency number corresponding in self, and in the cell re-configuration request that issues to Node B, carry the auxilliary frequency point information that needs deletion.

The auxilliary frequency point information that step 23, Node B are deleted according to needs in the cell re-configuration request, the auxilliary frequency that deletion is corresponding.

Step 24, recover when the auxilliary frequency relevant treatment cell failure of Node B side, corresponding auxilliary frequency becomes upstate, thereby the current capacity of relevant home cell changes (increase), and Node B reports the current capacity of relevant home cell by resource status Indication message or checking response message.

The current capacity in sub-district that step 25, radio network controller report according to Node B, calculate the current frequency number in this sub-district, determine the auxilliary frequency that can increase according to logic district frequency number corresponding in this current frequency number and self, and the auxilliary frequency point information that will increase is handed down to Node B by the cell re-configuration request.

Step 26, Node B increase corresponding auxilliary frequency according to the auxilliary frequency point information of the increase in the cell re-configuration request.

In the Node B that flow process caused of above-mentioned Fig. 1 and Fig. 2, the state variation of the auxilliary frequency of home cell as shown in Figure 3.

In the flow process of above-mentioned Fig. 1, because the network capacity of actual Node B support is dynamic change, and directly the allocating cell frequency number in the radio network controller is handed down to Node B as the frequency number of newly-built sub-district, often cause in the Node B actual frequency number and this frequency number of setting up that issues inconsistent, promptly with radio network controller in for the logic district frequency number of respective cell setting inconsistent.Like this, owing to can not clearly know the current actual frequency number of supporting of N frequency point cell in the Node B in the radio network controller, thus can't realize accurate frequency management to the N frequency point cell.For example, in flow process shown in Figure 2, during auxilliary frequency that radio network controller is determined to increase according to logic district frequency number corresponding in self, the auxilliary frequency quantity that increase can't be accurately obtained, thereby frequency management can't be accurately realized the N frequency point cell.

In addition, when frequency is assisted in increase, determine the frequency number of the actual support in sub-district according to the capacity that reports, because between capacity and the frequency number is not linear relationship, so also cause accurately to obtain the auxilliary frequency quantity that increase, thereby further reduced accuracy to the frequency management of N frequency point cell.

Summary of the invention

The object of the present invention is to provide a kind of subdistrict frequency point management method and a kind of network equipment, can improve the accuracy of the N frequency point cell being carried out the frequency management.

Based on above purpose, a kind of subdistrict frequency point management method provided by the invention comprises:

The frequency number that A, base station report home cell to support to network side;

B, network side carry out the subdistrict frequency point management according to the described frequency number that reports to described base station.

Preferably, described steps A comprises: before home cell is set up, and the frequency number that the base station reports newly-built home cell to support to network side;

Then described step B comprises: network side obtains the frequency number that allocating cell frequency number in self and the described newly-built home cell that reports are supported, with the frequency number that is defined as described newly-built home cell less among both.

Preferably, among the step B, after the frequency number of described definite newly-built home cell, further comprise:

According to selecting the frequency of respective amount in the described definite allocating cell frequency point information of frequency number in described network side, and will select the information of frequency to be handed down to described base station, then home cell is set up according to the frequency point information of reception in the base station.

Preferably, described steps A comprises: after the auxilliary frequency relevant treatment cell failure in the base station recovers, the frequency number of the current support of home cell of correspondence is reported network side;

Described step B comprises: network side is according to the frequency number of the described current support of home cell that reports, and need in the respective cell to determine the auxilliary frequency that increases, and the auxilliary frequency that the needs that will determine increase is handed down to the base station.

Preferably, described network side determines that according to the frequency number of the described current support of home cell that reports the auxilliary frequency that needs in the respective cell to increase comprises:

Network side is determined the auxilliary frequency number of increase according to being the logic district frequency number and the described frequency number that reports of described home cell record in self;

According to the allocating cell frequency point information in self be the logic district frequency point information of described home cell record, determine unfounded auxilliary frequency in the described home cell, and from the auxilliary frequency that these are determined, select the auxilliary frequency of respective amount according to the auxilliary frequency number of described definite increase, as the described auxilliary frequency that increases of needing.

Preferably, after described network side is handed down to the base station with frequency point information, perhaps described network side receives after the base station handles the response of returning according to the described frequency point information that issues, upgrading in self is logic district frequency number and the logic district frequency point information that described home cell is provided with, and makes it consistent with the subdistrict frequency point number and the frequency of described home cell actual disposition.

Preferably, described base station reports the information of network side, is carried in resource status Indication message or the checking response message.

Preferably, described base station reports the frequency number of network side, is carried in the home cell ability cell of described resource status Indication message or checking response message.

Preferably, the processing of described network side is carried out by radio network controller.

Based on above purpose, a kind of network equipment provided by the invention comprises:

Receiver module is used to receive the frequency number that home cell that the base station reports is supported;

The subdistrict frequency point administration module is used for the frequency number that reports according to described, and the subdistrict frequency point management is carried out in described base station.

Preferably, the frequency number of described receiver module reception comprises: the frequency number that newly-built home cell is supported;

Comprise in the described subdistrict frequency point administration module:

Newly-built subdistrict frequency point management submodule, be used for obtaining the allocating cell frequency number of self and the frequency number of described newly-built home cell support, with frequency number less among both, and determine that according to this frequency number frequency points corresponding information is handed down to the base station as newly-built sub-district.

Preferably, the frequency number of described receiver module reception comprises: the current support frequency of the home cell number that reports after auxilliary frequency relevant treatment cell failure recovers in the base station;

Comprise in the described subdistrict frequency point administration module:

The subdistrict frequency point updating submodule is used for according to the current support frequency of the described home cell that reports number, need in the respective cell to determine the auxilliary frequency that increases, and the auxilliary frequency point information that the needs that will determine increase is handed down to the base station.

Preferably, described network equipment is a radio network controller.

Via as can be known above-mentioned, among the present invention, the frequency number that the base station reports home cell to support to network side, thus network side can accurately be known the frequency number of the actual support of home cell in the base station, thus can accurately carry out the subdistrict frequency point management.

Description of drawings

Fig. 1 is the flow chart of setting up of N frequency point cell in the prior art;

Fig. 2 is for carrying out the flow chart of reprovision to the N frequency point cell in the prior art;

Fig. 3 is an auxilliary frequency logic state migration schematic diagram in the prior art;

Fig. 4 is the flow chart of subdistrict frequency point management method of the present invention;

Fig. 5 is the flow chart that the sub-district is set up in the specific embodiment of the invention;

Fig. 6 is the flow chart of cell re-configuration in the specific embodiment of the invention;

Fig. 7 is an auxilliary frequency logic state migration schematic diagram in the specific embodiment of the invention;

Fig. 8 is the composition schematic diagram of network equipment of the present invention;

Fig. 9 is the composition schematic diagram of a kind of preferred embodiment of network equipment of the present invention.

Embodiment

For making the purpose, technical solutions and advantages of the present invention clearer, the present invention is described in further detail below in conjunction with accompanying drawing.

As shown in Figure 4, a kind of subdistrict frequency point management method provided by the invention comprises:

The frequency number that step 41, base station report home cell to support to network side.

Step 42, network side carry out the subdistrict frequency point management according to the described frequency number that reports to described base station.

Above-mentioned steps 41, can be before the sub-district is set up, the frequency number that the base station reports the newly-built sub-district that will set up to support to network side be then in step 42, network side is determined the frequency number of newly-built sub-district according to this frequency number that reports, and the newly-built subdistrict frequency point number that will determine is handed down to the base station.Then because network side can be known the frequency number of actual supports in newly-built sub-district, thereby manage and to carry out according to this frequency number carrying out subdistrict frequency point, increased the accuracy that subdistrict frequency point is managed.

Above-mentioned steps 42 also can be after the sub-district is set up, and when recovering again after the auxilliary frequency relevant treatment resource in the base station breaks down, reports the frequency number of the current support of home cell to network side.Then network side is when carrying out cell re-configuration, frequency number based on this current support of home cell that reports carries out, need not frequency number, prevented because the error that causes according to calculation of capacity frequency number, also increased the accuracy of subdistrict frequency point management according to the current support of calculation of capacity home cell.

Said method can be applied in the communication network of various support N frequency point cells, for example, can be applied in the TD-SCDMA system that supports the N frequency point cell, then carry out above-mentioned network side processing can be the radio network controller (RNC) of network side, and above-mentioned base station is Node B (NodeB); In other the communication system of support N frequency point cell, carry out the processing of above-mentioned network side, be the equipment that carries out wireless network control corresponding with radio network controller in the network side setting, as base station controller, and the base station is and the NodeB corresponding equipment.

Below with set up in the sub-district in the process and the reconfiguration course of sub-district after setting up in, it is example that Node B all reports the frequency number of home cell support to radio network controller, by a preferred embodiment the present invention is further set forth.

As shown in Figure 5, process is set up in the sub-district that shows in the present embodiment, and this process comprises:

Before step 51, sub-district are set up, the frequency number that Node B reports newly-built sub-district to support to radio network controller.Here, Node B can as according to being the processing unit of newly-built cell configuration, be determined the frequency number that newly-built sub-district is supported according to self current hardware configuration situation.

The radio network controller of step 52, network side receives after newly-built sub-district that Node B reports supports the frequency number, this frequency number that reports and the allocating cell frequency number in self are compared, smaller value is defined as the frequency number of newly-built sub-district, and the newly-built subdistrict frequency point number that will determine and be handed down to Node B by the sub-district request of setting up according to the frequency point information that this frequency number is determined.

In the present embodiment, following parameter is set in radio network controller: allocating cell frequency number, allocating cell frequency point information, logic district frequency number and logic district frequency point information.Wherein, allocating cell frequency number and allocating cell frequency point information, according to the planning of network side, static state is arranged in the radio network controller in advance; Logic district frequency number and logic district frequency point information are used in RNC the frequency number and the frequency point information of the corresponding real cell of record respectively, are dynamically changeables.

After step 53, Node B receive the sub-district request of setting up,, when newly-built sub-district, set up corresponding dominant frequency point and assist frequency, and return the sub-district to radio network controller and set up and respond according to newly-built subdistrict frequency point number and frequency point information wherein.

In this step, the sub-district is set up response and can have been set up at dominant frequency point, promptly returns to radio network controller, also can return to radio network controller again after all auxilliary frequency has been set up.In addition, in above-mentioned steps 52 or the step 53, the logic district frequency number of corresponding newly-built sub-district is set to determined newly-built subdistrict frequency point number in the radio network controller self, and the frequency point information that will be handed down to Node B is recorded as the logic district frequency point information, thereby guarantees in the radio network controller be that described newly-built sub-district the logic district frequency number and the logic district frequency point information that write down are consistent with the frequency number and the frequency of real cell.

Preferably, in step 53, Node B is after all auxilliary frequency foundation is finished, return the sub-district again and set up response to radio network controller, notify its sub-district to set up successfully, after this, logic district frequency number that radio network controller is provided with for above-mentioned newly-built sub-district in self again and logic district frequency point information are set to above-mentioned definite newly-built subdistrict frequency point number and are handed down to the frequency point information of Node B, have guaranteed further that then the frequency number and the frequency of the frequency point information of the logic district frequency number that is provided with for newly-built sub-district in the radio network controller and record and real cell is in full accord.

After flow process is set up in sub-district shown in Figure 5, if occurred the fault or the recovery of auxilliary frequency relevant treatment unit in the sub-district of this foundation, then carry out cell re-configuration process, this flow process comprises the steps: as shown in Figure 6

Step 61, break down when the auxilliary frequency relevant treatment unit of Node B side, relevant home cell capacity changes (minimizing) and auxilliary frequency state enters down state, Node B reports the frequency number and the auxilliary frequency state change information of the relevant current support of home cell by resource status Indication message or checking response message.

Adopting the NBAP agreement with the interacting message between radio network controller and the Node B is example, carrying the resource status Indication message (RESOURCE STATUSINDICATION) and the checking response message of the frequency number of the current support of home cell can distinguish as shown in Table 1 and Table 2, wherein, show to comparative the composition of existing message in the left-hand column of table 1 and table 2; Right-hand column then is the composition of message in the present embodiment.

RESOURCE?STATUS?INDICATION	RESOURCE?STATUS INDICATION
		Not failure (No Failure)	>No?Failure
Home cell information (Local Cell Information)	>>Local?Cell?Information
		Local district identification (Local Cell ID)	>>>Local?Cell?ID
Increase or deletion indication (Add/Delete Indicator)	>>>Add/Delete?Indicator
		……	……
High speed downlink packet access capability (HSDPA Capability)	>>>HSDPA?Capability
			The frequency number supported of home cell
Service impact (Service Impacting)	>Service?Impacting
		>>Local?Cell?Information	>>Local?Cell?Information
>>>Local?Cell?ID	>>>Local?Cell?ID
		>>>Add/Delete?Indicator	>>>Add/Delete?Indicator
……	……
		>>>HSDPA?Capability	>>>HSDPA?Capability
	The frequency number supported of home cell

Table 1

AUDIT?RESPONSE	AUDIT?RESPONSE
		Local?Cell?Information	Local?Cell?Information
>Local?Cell?ID	>Local?Cell?ID
		>Add/Delete?Indicator	>Add/Delete?Indicator
……	……
		>HSDPA?Capability	>HSDPA?Capability
	The frequency number supported of home cell

Table 2

In the present embodiment, cell management flow process and NBAP agreement regulation are identical, only in the interface message between radio network controller and Node B, increase the frequency number that a field is used to indicate the home cell support, do not increase the realization difficulty of Node B and radio network controller, and, also reduced the burden of radio network controller owing to the calculation of capacity frequency number that in radio network controller, need not to report according to Node B.

The auxilliary frequency state change information that step 62, radio network controller report according to Node B, definite auxilliary frequency that needs deletion carries the auxilliary frequency point information that needs deletion in the cell re-configuration request that issues to Node B.

The auxilliary frequency point information that step 63, Node B are deleted according to needs in the cell re-configuration request is deleted corresponding auxilliary frequency, and returns the cell re-configuration response to radio network controller, and the notice radio network controller has successfully been deleted the auxilliary frequency of correspondence.

After step 64, radio network controller receive the cell re-configuration response, upgrade logic district frequency number corresponding in self and the subdistrict frequency point information that is write down.

Step 65, when the auxilliary frequency relevant treatment cell failure of Node B side recovers, the frequency number that relevant home cell is supported increases, Node B reports the frequency number of the current support of this home cell by resource status Indication message or checking response message.The particular content of these two message can be as shown in Table 1 and Table 2.

The frequency number of the current support of home cell that step 66, radio network controller report according to Node B, according to this current frequency number and in self corresponding logic district frequency number determine the auxilliary frequency quantity that can increase; Compare allocating cell frequency point information and logic district frequency point information in self then, obtain the auxilliary frequency point information that to set up, according to above-mentioned definite auxilliary frequency quantity that can increase, therefrom select auxilliary frequency, and the auxilliary frequency point information that will select is handed down to Node B by the cell re-configuration request.

Step 67, Node B increase corresponding auxilliary frequency according to the auxilliary frequency point information in the cell re-configuration request, and to return the cell re-configuration response to radio network controller, the notice radio network controller has successfully increased corresponding auxilliary frequency.

Step 68, radio network controller are according to the cell re-configuration response that receives, after determining that Node B increases auxilliary frequency success, upgrade in self corresponding logic district frequency number and logic district frequency point information, make it consistent with current frequency number and the frequency of corresponding real cell in the Node B.

The state variation of the auxilliary frequency of home cell as shown in Figure 7 in the Node B that processing procedure caused of above-mentioned Fig. 5 and Fig. 6.Comparison diagram 7 and Fig. 3 are as can be seen, in the present embodiment, because after the fault recovery of auxilliary frequency processing unit, need not to calculate current capacity and report, so need not auxilliary frequency is moved to upstate from down state, reduced in the Node B the processing of auxilliary frequency state transition, reduced the burden of Node B.

In the present embodiment, if n auxilliary frequency fault takes place and reports to radio network controller in Node B simultaneously, radio network controller also will be initiated the cell re-configuration process n time according to the frequency number and the frequency number that enters down state of home cell support, delete the auxilliary frequency of n fault; In final radio network controller and the Node B, the frequency number that logic district exists counts up to identical entirely with the frequency of home cell support.

If Node B M auxilliary frequency fault recovery takes place simultaneously and reports to radio network controller, the frequency number that radio network controller also will be supported according to home cell is initiated the cell re-configuration process M time, the individual auxilliary frequency of interpolation M; In final radio network controller and the Node B, the frequency number that logic district exists counts up to identical entirely with the frequency of home cell support.

If there be n auxilliary frequency fault (n＞1) in Node B, then supervention is given birth to M (M＜n) auxilliary frequency fault recovery, the frequency number that radio network controller is also supported according to home cell, before prior fault takes place and by M auxilliary frequency of selection in n the auxilliary frequency of cell re-configuration message deletion, initiating M cell re-configuration process increases these auxilliary frequencies.

If n auxilliary frequency fault (n＞=1) and M auxilliary frequency fault recovery (M＞=1) take place in Node B simultaneously, radio network controller is also handled according to the frequency number of home cell support and the frequency number that enters down state: at first according to the frequency number that enters down state, repeatedly initiate the cell re-configuration process n time, delete the auxilliary frequency of n fault; Subsequently the frequency number that exists in the frequency number of home cell support and the current logic district is compared, comparative result finds that it is M that the frequency number of home cell support is counted difference than the frequency of current logic district existence, then before prior fault take place and the K by the deletion of cell re-configuration message (K＞=n) select M auxilliary frequency in the individual auxilliary frequency initiates the cell re-configuration process M time.The K＞=n here is owing to before this n auxilliary frequency breaks down, also have and break down and unrecovered auxilliary frequency, has comprised these auxilliary frequencies among the K.

The present invention also provides a kind of network equipment, this network equipment can be applied in the communication network of various support N frequency point cells, for example, can be applied in the TD-SCDMA system that supports the N frequency point cell, then this network equipment can be radio network controller (RNC), in other the communication system of support N frequency point cell, carries out the processing of above-mentioned network side, be the equipment that carries out wireless network control corresponding, as base station controller with radio network controller in the network side setting.

Below be that radio network controller is that example describes with above-mentioned network equipment, as shown in Figure 8, comprise in this radio network controller:

Receiver module is used to receive the frequency number that home cell that the base station reports is supported.

The subdistrict frequency point administration module is used for the frequency number that reports according to described, and the subdistrict frequency point management is carried out in described base station.

The frequency number that above-mentioned receiver module receives can comprise: the frequency number that newly-built home cell is supported.Correspondence comprises in the then above-mentioned subdistrict frequency point administration module: newly-built subdistrict frequency point management submodule, be used for obtaining the allocating cell frequency number of self and the frequency number of described newly-built home cell support, the frequency number as newly-built sub-district less among both is handed down to described base station.

The frequency number that above-mentioned receiver module receives can also comprise: after auxilliary frequency relevant treatment cell failure recovers in the base station, and the current support frequency of the home cell that the base station reports number.Correspondence comprises in the then above-mentioned subdistrict frequency point administration module: the subdistrict frequency point updating submodule, be used for according to the current support frequency of the described home cell that reports number, need in the respective cell to determine the auxilliary frequency that increases, and the auxilliary frequency point information that the needs that will determine increase is handed down to the base station.The specifically definite implementation that needs the auxilliary frequency of increase of this module, description gets final product with reference to the correspondence in the said method, repeats no more here.In addition, this subdistrict frequency point updating submodule, can also carry out the deletion and the recording processing of corresponding auxilliary frequency according to by the auxilliary frequency that become down state of receiver module from the base station side reception, corresponding specific implementation is also described with reference to the correspondence in the said method and is got final product.

Fig. 9 shows a kind of preferable implementation of the above-mentioned network equipment, comprising above-mentioned each module.

More than be explanation, in concrete implementation process, can carry out suitable improvement, to adapt to the concrete needs of concrete condition method of the present invention to the specific embodiment of the invention.Therefore be appreciated that according to the specific embodiment of the present invention just to play an exemplary role, not in order to restriction protection scope of the present invention.

Claims (13)

1. a subdistrict frequency point management method is characterized in that, this method comprises:

The frequency number that A, base station report home cell to support to network side;

B, network side carry out the subdistrict frequency point management according to the described frequency number that reports to described base station.

2. method according to claim 1 is characterized in that, described steps A comprises: before home cell is set up, and the frequency number that the base station reports newly-built home cell to support to network side;

Then described step B comprises: network side obtains the frequency number that allocating cell frequency number in self and the described newly-built home cell that reports are supported, with the frequency number that is defined as described newly-built home cell less among both.

3. method according to claim 2 is characterized in that, among the step B, after the frequency number of described definite newly-built home cell, further comprises:

According to selecting the frequency of respective amount in the described definite allocating cell frequency point information of frequency number in described network side, and will select the information of frequency to be handed down to described base station, then home cell is set up according to the frequency point information of reception in the base station.

4. method according to claim 1 is characterized in that, described steps A comprises: after the auxilliary frequency relevant treatment cell failure in the base station recovers, the frequency number of the current support of home cell of correspondence is reported network side;

Described step B comprises: network side is according to the frequency number of the described current support of home cell that reports, and need in the respective cell to determine the auxilliary frequency that increases, and the auxilliary frequency that the needs that will determine increase is handed down to the base station.

5. method according to claim 4 is characterized in that, described network side determines that according to the frequency number of the described current support of home cell that reports the auxilliary frequency that needs in the respective cell to increase comprises:

Network side is determined the auxilliary frequency number of increase according to being the logic district frequency number and the described frequency number that reports of described home cell record in self;

According to the allocating cell frequency point information in self be the logic district frequency point information of described home cell record, determine unfounded auxilliary frequency in the described home cell, and from the auxilliary frequency that these are determined, select the auxilliary frequency of respective amount according to the auxilliary frequency number of described definite increase, as the described auxilliary frequency that increases of needing.

6. according to claim 3 or 4 described methods, it is characterized in that, after described network side is handed down to the base station with frequency point information, perhaps described network side receives after the base station handles the response of returning according to the described frequency point information that issues, upgrading in self is logic district frequency number and the logic district frequency point information that described home cell is provided with, and makes it consistent with the subdistrict frequency point number and the frequency of described home cell actual disposition.

7. according to arbitrary described method in the claim 3 to 5, it is characterized in that described base station reports the information of network side, be carried in resource status Indication message or the checking response message.

8. method according to claim 7 is characterized in that, described base station reports the frequency number of network side, is carried in the home cell ability cell of described resource status Indication message or checking response message.

9. according to arbitrary described method in the claim 1 to 5, it is characterized in that the processing of described network side is carried out by radio network controller.

10. a network equipment is characterized in that, this equipment comprises:

Receiver module is used to receive the frequency number that home cell that the base station reports is supported;

The subdistrict frequency point administration module is used for the frequency number that reports according to described, and the subdistrict frequency point management is carried out in described base station.

11. network equipment according to claim 10 is characterized in that, the frequency number that described receiver module receives comprises: the frequency number that newly-built home cell is supported;

Comprise in the described subdistrict frequency point administration module:

Newly-built subdistrict frequency point management submodule, be used for obtaining the allocating cell frequency number of self and the frequency number of described newly-built home cell support, with frequency number less among both, and determine that according to this frequency number frequency points corresponding information is handed down to the base station as newly-built sub-district.

12. network equipment according to claim 10 is characterized in that, the frequency number that described receiver module receives comprises: the current support frequency of the home cell number that reports after auxilliary frequency relevant treatment cell failure recovers in the base station;

Comprise in the described subdistrict frequency point administration module:

The subdistrict frequency point updating submodule is used for according to the current support frequency of the described home cell that reports number, need in the respective cell to determine the auxilliary frequency that increases, and the auxilliary frequency point information that the needs that will determine increase is handed down to the base station.

13., it is characterized in that described network equipment is a radio network controller according to arbitrary described network equipment in the claim 10 to 12.

Images