CN101778391B - Carrier frequency capability submission method and system - Google Patents

Abstract

The invention discloses a carrier frequency capability submission method. The method includes the following step that: a base station Node B submits actual baseband resource capability information corresponding to community carrier frequency to a radio network controller (RNC). The invention also discloses a carrier frequency capability submission system, which comprises a submission unit, and the submission unit is used by the Node B to submit the actual baseband resource capability information corresponding to the community carrier frequency to the RNC. The adoption of the method and the system can realize the submission of carrier frequency capability, and prevents the problem of baseband resource waste or baseband resource insufficiency, which is caused when the RNC processes the received baseband resource capability information.

Description

Carrier frequency capability reporting method and system

Technical Field

The present invention relates to carrier frequency capability reporting technologies, and in particular, to a method and a system for reporting carrier frequency capability of a cell.

Background

In the field of 3G mobile communication device manufacturing, a radio remote system is attracting attention, and a typical architecture of the radio remote system is as follows: the base transceiver station is divided into two parts, namely a Base Band Unit (BBU) and a Radio Remote Unit (RRU) form a framework of a Radio Remote system, and the BBU and the RRU are connected by optical fibers. The BBU is composed of a BaseBand processing board (GBP, BaseBand Process), and a plurality of BaseBand resources are centralized together and can be shared by a plurality of RRUs; the RRU provides radio frequency processing functions for the signal. The architecture of the radio remote system appears, and after the baseband resource and the radio frequency resource are separated, the dynamic allocation of the baseband resource becomes possible.

In a time division synchronous code division multiple access (TD-SCDMA) system, baseband resources are shared in a base station Node B, and which baseband resources are used by each carrier frequency of each cell are bound when the cell is established. The cell establishment may be triggered by an auditing process, where the auditing process means that the Node B and a Radio Network Controller (RNC) report the information of the baseband resource capability supported by the Node B to the RNC during the auditing process before the cell establishment, however, the information of the baseband resource capability here is: in the current base band resource pool of Node B, the maximum base band resource capability information among base band resources, the base band resource capability information is usually not in accordance with the base band resource capability information actually needed after the cell is established, so that when the RNC processes the received base band resource capability information, the base band resource waste or the base band resource insufficiency can occur.

Disclosure of Invention

In view of this, the main objective of the present invention is to provide a method and a system for reporting carrier frequency capability, which achieve the reporting of carrier frequency capability and avoid the problem of baseband resource waste or insufficient baseband resource caused when an RNC processes received baseband resource capability information.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

a method for reporting carrier frequency capability includes: the base station Node B reports the actual base band resource capability information corresponding to the cell carrier frequency to the radio network controller RNC.

Wherein the type of the actual baseband resource capability information includes: the system comprises a maximum downlink power capability, a minimum downlink power capability, a high-speed downlink packet access capability, an enhanced uplink dedicated channel capability, a multimedia multicast broadcast service capability, an uplink synchronous channel position capability, a single-frequency point multimedia multicast broadcast service network unique mode capability, an uplink synchronous channel auxiliary carrier configuration capability and a power pool capability; the reported actual baseband resource capability information is as follows: at least one of types of the actual baseband resource capability information.

Wherein, the mode for realizing the report of the Node B is an active mode; the process of realizing reporting in an active mode comprises the following steps: and the Node B encapsulates the actual baseband resource capability information in a resource state indication message and reports the resource state indication message to the RNC.

Wherein, the reporting mode of the Node B is a passive mode; the process of realizing reporting in a passive mode comprises the following steps: node B responds to the audit request message sent by RNC, and encapsulates the actual baseband resource capability information in the audit response message and reports to RNC.

Wherein, the method also comprises: and the RNC executes corresponding configuration processing operation according to the received actual baseband resource capability information.

When the received actual baseband resource capability information corresponding to the current carrier frequency is available for the enhanced uplink dedicated channel capability, configuring a physical shared channel, and establishing high-speed uplink packet access on the current carrier frequency; or,

under the condition that the received actual baseband resource capability information corresponding to the current auxiliary carrier frequency is that the uplink synchronization channel auxiliary carrier configuration capability is available, configuring the common channel, and establishing the uplink synchronization channel on the current auxiliary carrier frequency; or,

under the condition that the received actual baseband resource capability information corresponding to the current carrier frequency is available for the high-speed downlink packet access capability, configuring a physical shared channel, and establishing high-speed downlink packet access on the current carrier frequency; or,

under the condition that the received actual baseband resource capability information corresponding to the current carrier frequency is that the single-frequency-point multimedia multicast broadcast service network unique mode capability is available, configuring a public channel, and establishing a time slot corresponding to a single-frequency-point multimedia multicast broadcast service network on the current carrier frequency; or,

and under the condition that the received actual baseband resource capacity information corresponding to the first carrier frequency is that the power pool capacity is available and the received actual baseband resource capacity information corresponding to the second carrier frequency is that the power pool capacity is available, adopting an inter-carrier frequency power pool capacity sharing mechanism between the first carrier frequency and the second carrier frequency.

A system for reporting carrier frequency capability comprises a reporting unit used for Node B to report the actual base band resource capability information corresponding to the cell carrier frequency to RNC.

The reporting unit is further configured to implement reporting by the Node B in an active manner, so that the Node B encapsulates the actual baseband resource capability information in a resource status indication message and reports the resource status indication message to the RNC.

The reporting unit is further configured to implement reporting by the Node B in a passive manner, so that the Node B responds to an audit request message sent by the RNC, and encapsulates the actual baseband resource capability information in the audit response message and reports the audit response message to the RNC.

The system is characterized in that the system further comprises a processing unit, which is used for the RNC to execute corresponding configuration processing operation aiming at the received actual baseband resource capability information; the configuration processing operation includes: configuration processing operations on physical shared channels, configuration processing operations on common channels, and configuration processing operations on other resources.

The method of the invention comprises the following steps: and the Node B reports the actual base band resource capability information corresponding to the cell carrier frequency to the RNC. The Node B can report the actual base band resource capability information corresponding to the cell carrier frequency to the RNC, so the RNC can perform corresponding processing according to the actual base band resource capability information. The carrier frequency capability here is the actual baseband resource capability information corresponding to the cell carrier frequency.

Drawings

FIG. 1 is a schematic flow chart of the implementation of the method of the present invention.

Detailed Description

The basic idea of the invention is: and the Node B reports the actual baseband resource capability information corresponding to the cell carrier frequency to the RNC.

The following describes the embodiments in further detail with reference to the accompanying drawings.

The following describes the prior art and the present invention in comparison to better appreciate the advantages of the present invention over the prior art.

As for the prior art, in the prior art, before a cell is established, a Node B does not know which baseband resource capability information in a baseband resource pool is allocated to a cell to be established, and these baseband resource capability information usually correspond to different logical units, and specifications and capabilities of the logical units are different from each other, for example, some logical units belong to a higher version of product, and specifications and capabilities of the logical units are larger than those of other logical units of a lower version, so that, in an auditing process before the cell is established, the Node B can only report the maximum baseband resource capability information between baseband resources in its current baseband resource pool to an RNC. However, after the cell is established, the actual baseband resource capability information corresponding to a certain carrier frequency in the cell is determined, and the baseband resource capability information may not match the maximum baseband resource capability information reported in the auditing process before the cell is established, and when the reported maximum baseband resource capability information is less than the actual baseband resource capability information, when the RNC processes the received maximum baseband resource capability information, the adverse effect of insufficient baseband resources occurs; when the reported maximum baseband resource capability information is greater than the actual baseband resource capability information, the RNC may have an adverse effect of wasting baseband resources when processing the received maximum baseband resource capability information. Therefore, new requirements are: node B needs to report the actual baseband resource capability information required by RNC processing to RNC after cell establishment, and at present, there is no effective solution for this new requirement.

In order to meet the new requirement, the invention reports the actual baseband resource capability information required by the RNC for processing to the RNC, thereby avoiding the serious consequence that the actual baseband resource capability cannot be obtained to cause the baseband resource waste and deficiency or the channel or resource configuration cannot be correctly carried out when the RNC processes the received baseband resource capability information in the prior art.

The carrier frequency capability reporting method adopted by the present invention is specifically described below.

As shown in fig. 1, a method for reporting carrier frequency capability includes the following steps:

step 101, Node B reports the actual base band resource ability information corresponding to the cell carrier frequency to RNC.

Here, the types of the actual baseband resource capability information include, but are not limited to: the system comprises a maximum downlink power capability, a minimum downlink power capability, a high-speed downlink packet access capability, an enhanced uplink dedicated channel capability, a multimedia multicast broadcast service capability, an uplink synchronous channel position capability, a single-frequency point multimedia multicast broadcast service network unique mode capability, an uplink synchronous channel auxiliary carrier configuration capability and a power pool capability. And the reported actual baseband resource capability information is as follows: at least one of a type of actual baseband resource capability information. For example, the actual baseband resource capability information may be: the uplink synchronous channel auxiliary carrier configuration capability and the power pool capability; the actual baseband resource capability information may also be: the system comprises an uplink synchronous channel position capability, a single frequency point multimedia multicast broadcast service network unique mode capability and an uplink synchronous channel auxiliary carrier configuration capability.

Here, the reporting mode implemented by the Node B is divided into two cases. The first case is: the mode for realizing the report of the Node B is an active mode; the process of realizing reporting in an active mode comprises the following steps: node B does not pass through the audit request message of RNC, Node B directly encapsulates the actual base band resource capability information in the resource state indication message and reports to RNC. Here, the cell information of the resource status indication message may carry actual baseband resource capability information corresponding to each carrier frequency of the cell. The second case is: the mode for realizing the report of the Node B is a passive mode; the process of realizing reporting in a passive mode comprises the following steps: after Node B sends audit request message to Node B through RNC, Node B responds to the audit request message sent by RNC and packages the actual base band resource capability information in the audit response message and reports it to RNC. Compared with the first case, the method is a way for Node B to indirectly report the actual base band resource capability information. Here, the cell information of the audit response message may carry actual baseband resource capability information corresponding to each carrier frequency of the cell.

It should be noted here that the actual baseband resource capability information corresponding to each carrier frequency of the cell is optional in the resource status indication message or the audit response message, and the Node B may or may not carry the actual baseband resource capability information. For the optional aspect, since the actual baseband resource capability information is not related to and carried in the prior art, but the actual baseband resource capability information is related to the present invention, the optional aspect is to be compatible with the prior art, that is, the actual baseband resource capability information carried by the Node B is optional.

Step 102, the RNC executes corresponding configuration processing operation for the received actual baseband resource capability information.

Here, the configuration processing operation includes: configuration processing operations on physical shared channels, configuration processing operations on common channels, and configuration processing operations on other resources. For example, configuration processing operations include, but are not limited to: establishing high-speed downlink packet access on an auxiliary carrier frequency with high-speed downlink packet access capability, configuring an uplink synchronous channel on an auxiliary carrier frequency with uplink synchronous channel auxiliary carrier configuration capability and the like.

As specifically illustrated in the following examples, the RNC may perform the corresponding channel configuration process for the received actual baseband resource capability information, which includes the following cases.

The first case is: and under the condition that the received actual baseband resource capability information corresponding to the current carrier frequency is available for enhancing the capability of the uplink dedicated channel, configuring the physical shared channel, and establishing high-speed uplink packet access on the current carrier frequency.

The second case is: and under the condition that the received actual baseband resource capability information corresponding to the current auxiliary carrier frequency is that the uplink synchronization channel auxiliary carrier configuration capability is available, configuring the common channel, and establishing the uplink synchronization channel on the current auxiliary carrier frequency.

The third case is: and under the condition that the received actual baseband resource capability information corresponding to the current carrier frequency is available for the high-speed downlink packet access capability, configuring the physical shared channel, and establishing the high-speed downlink packet access on the current carrier frequency.

The fourth case is: and under the condition that the received actual baseband resource capability information corresponding to the current carrier frequency is available for the single-frequency point multimedia multicast broadcast service network unique mode capability, configuring the common channel, and establishing a time slot corresponding to the single-frequency point multimedia multicast broadcast service network on the current carrier frequency.

The fifth case is: and under the condition that the received actual baseband resource capability information corresponding to the first carrier frequency is available for the power pool capability and the received actual baseband resource capability information corresponding to the second carrier frequency is available for the power pool capability, adopting an inter-carrier frequency power pool capability sharing mechanism between the first carrier frequency and the second carrier frequency. Here, the power pool capability sharing mechanism refers to: the power sharing among the carrier frequencies is that the maximum transmitting power of the carrier frequencies is taken as the upper limit of the sum of the powers of the carrier frequencies, and the actual powers of the carrier frequencies can be flexibly shared within the limit of the maximum value.

The first method embodiment is as follows: the Node B realizes the process of reporting the actual baseband resource capability information in a passive mode, and the process comprises the following steps:

step 201, the RNC initiates a cell establishment procedure.

Step 202, RNC sends audit request message to Node B.

Step 203, Node B encapsulates the actual baseband resource capability information in an audit response message and reports the audit response message to RNC.

Here, the actual baseband resource capability information includes: an uplink synchronization channel secondary carrier Configuration Capability (uppch secondary Frequency Configuration Capability) and an enhanced uplink dedicated channel Capability (E-DCHCapability), the contents of which are shown in table 1.

Information element (IE/Group Name)	Presence or not (Presence)	Range (Range)	Cell element type and Reference (IE TypeAND Reference)	Semantic description (SemanticsDescription)
					......
Cell Information (Cell Information)
					Information of channel number of universal terrestrial radio access absolute radio frequency point (UARFCN Information LCR) with low chip rate		The value range is as follows: 0, to the maximum number of carriers in a cell
General terrestrial radio Access Absolute radio frequency Point channel number (UARFCN)	Must choose (M)
					＞＞UpPCH SecondaryFrequency ConfigurationCapability	Optional (O)
＞＞E-DCH Capability	O
					......

TABLE 1

Here, table 1 is specific contents included in the audit response message, and as shown in table 1, it is necessary to add contents to the existing audit response message according to the need of reporting actual baseband resource Capability information, where the UpPCH Secondary Frequency Configuration Capability and the E-DCH Capability are newly added contents in the existing audit response message. For example, for an auxiliary carrier Frequency with UARFCN F1, the value of uppchs association Frequency Configuration Capability is available (cable), and the value of E-DCHCapability is unavailable (non cable); for the Secondary carrier Frequency with UARFCN F2, the value of UpPCH Secondary Frequency Configuration Capability is non-Capable, and the value of E-DCH Capability is Capable.

Here, it should be noted that: the carrier frequency of each cell comprises a main carrier frequency and a plurality of auxiliary carrier frequencies. Whether each carrier frequency is configured as a primary carrier frequency or a secondary carrier frequency is determined by the RNC. Some baseband resource capabilities are specific to the Secondary carrier, such as UpPCH Secondary Frequency Configuration Capability.

Step 204, after receiving the audit response message, the RNC stores the actual baseband resource capability information corresponding to the auxiliary carrier frequency in each carrier frequency.

Step 205, the RNC performs corresponding channel configuration processing according to the actual baseband resource capability information corresponding to the auxiliary carrier frequency in each carrier frequency.

Here, for the Secondary carrier F1, since the value of the UpPCH Secondary Frequency configuration Capability is cable and the value of the E-DCH Capability is non-cable, the actual baseband resource Capability information corresponding to the Secondary carrier F1 is processed as follows: initiating a common channel reconfiguration process, and establishing an uplink synchronous channel on an auxiliary carrier frequency F1; for the auxiliary carrier Frequency F2, since the value of the uppch association Frequency Configuration Capability is non-Capable and the value of the E-DCHCapability is Capable, the actual baseband resource Capability information corresponding to the auxiliary carrier Frequency F2 is processed as follows: and initiating a physical shared channel reconfiguration process, and establishing high-speed uplink packet access on the auxiliary carrier frequency F2.

The second method embodiment: the Node B realizes the process of reporting the actual baseband resource capability information in an active mode, and the process comprises the following steps:

step 301, the RNC initiates a cell establishment procedure.

Step 302, Node B encapsulates the actual baseband resource capability information in the resource status indication message and reports to RNC.

Here, the actual baseband resource capability information includes: high speed downlink packet access Capability (hsdpa availability), single frequency point multimedia multicast broadcast service network unique mode Capability (MBSFN Only mode Capability), and Power Pool Capability (Power Pool Capability), the contents of which are shown in table 2.

IE/Group Name	Presence	Range	IE Type andReference	SemanticsDescription
					......
＞＞Cell Information
					＞＞＞UARFCN InformationLCR		The value range is as follows: 0, to the maximum number of carriers in a cell
＞＞＞＞UARFCN	M

＞＞＞＞HSDPA Capability	O
					＞＞＞＞MBSFN Only ModeCapability	O
＞＞＞＞Power Pool Capability	O
					......

TABLE 2

Here, table 2 shows specific contents included in the resource status indication message, and as shown in table 2, it is necessary to add contents to the existing resource status indication message in response to a need to report actual baseband resource Capability information, where HSDPA Capability, MB SFN Only Mode Capability, and Power Pool Capability are newly added contents to the existing resource status indication message. For example, for an auxiliary carrier frequency with UARFCN F1, the values of HSDPA Capability and Power Capability are both cable, and the value of MBSFN OnlyMode Capability is non-cable; for the sub-carrier with UARFCN of F2, the HSDPA Capability takes on non-Capability, and both MBSFN Only Mode Capability and PowerPool Capability take on Capability.

Step 303, after receiving the resource status indication message, the RNC stores the actual baseband resource capability information corresponding to the auxiliary carrier frequency in each carrier frequency.

And step 304, the RNC respectively performs corresponding channel configuration processing according to the actual baseband resource capability information corresponding to the auxiliary carrier frequency in each carrier frequency.

Here, for the secondary carrier F1, since the values of the HSDPA Capability and the Power Capability are both Capable, and the value of the MBSFN Only Mode Capability is non Capable, the actual baseband resource Capability information corresponding to the secondary carrier F1 is processed as follows: initiating a physical shared channel reconfiguration process, and establishing high-speed downlink packet access on an auxiliary carrier frequency F1; for the auxiliary carrier frequency F2, since the value of the HSDPA Capability is non-Capable, and the values of the MBSFN Only Mode Capability and the Power Capability are both Capable, the processing performed on the actual baseband resource Capability information corresponding to the auxiliary carrier frequency F2 is as follows: initiating a common channel reconfiguration process, and establishing a time slot corresponding to a single-frequency point multimedia multicast broadcast service network on an auxiliary carrier frequency F2; moreover, for the secondary carrier F1 and the secondary carrier F2, the actual baseband resource Capability information of both includes the value of Power Capability as cable, so a Power Pool Capability sharing mechanism between the secondary carriers F1 and F2 is adopted.

A system for reporting carrier frequency capability comprises a reporting unit used for Node B to report the actual base band resource capability information corresponding to the cell carrier frequency to RNC. The reporting unit may be further configured to implement reporting by the Node B in an active manner, so that the Node B encapsulates the actual baseband resource capability information in the resource status indication message and reports the resource status indication message to the RNC. In addition, the reporting unit may further be configured to enable the Node B to report in a passive manner, so that the Node B responds to the audit request message sent by the RNC, and encapsulates the actual baseband resource capability information in the audit response message and reports the audit response message to the RNC.

A carrier frequency ability reporting system, the system also includes a processing unit, which is used for RNC to execute the corresponding configuration processing operation aiming at the received actual baseband resource ability information; the configuration processing operation includes: configuration processing operations on physical shared channels, configuration processing operations on common channels, and configuration processing operations on other resources.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims (8)

1. A method for reporting carrier frequency capability is characterized in that the method comprises the following steps: a base station Node B reports actual baseband resource capability information corresponding to cell carrier frequency to a radio network controller RNC, so that the RNC executes corresponding configuration processing operation aiming at the received actual baseband resource capability information;

wherein the configuration processing operation comprises: configuring and processing operation on a physical shared channel, configuring and processing operation on a common channel and configuring and processing operation on other resources;

the corresponding configuration processing operation is executed aiming at the received actual baseband resource capacity information;

under the condition that the received actual baseband resource capability information corresponding to the current carrier frequency is available for enhancing the capability of the uplink dedicated channel, configuring the physical shared channel, and establishing high-speed uplink packet access on the current carrier frequency; or,

under the condition that the received actual baseband resource capability information corresponding to the current auxiliary carrier frequency is that the uplink synchronization channel auxiliary carrier configuration capability is available, configuring the common channel, and establishing the uplink synchronization channel on the current auxiliary carrier frequency; or,

under the condition that the received actual baseband resource capability information corresponding to the current carrier frequency is available for the high-speed downlink packet access capability, configuring a physical shared channel, and establishing the high-speed downlink packet access on the current carrier frequency; or,

under the condition that the received actual baseband resource capability information corresponding to the current carrier frequency is available for the single-frequency point multimedia multicast broadcast service network unique mode capability, configuring a common channel, and establishing a time slot corresponding to the single-frequency point multimedia multicast broadcast service network on the current carrier frequency; or,

and under the condition that the received actual baseband resource capacity information corresponding to the first carrier frequency is available for the power pool capacity, and the received actual baseband resource capacity information corresponding to the second carrier frequency is available for the power pool capacity, adopting an inter-carrier frequency power pool capacity sharing mechanism between the first carrier frequency and the second carrier frequency.

2. The method of claim 1, wherein the type of the actual baseband resource capability information comprises: the system comprises a maximum downlink power capability, a minimum downlink power capability, a high-speed downlink packet access capability, an enhanced uplink dedicated channel capability, a multimedia multicast broadcast service capability, an uplink synchronous channel position capability, a single-frequency point multimedia multicast broadcast service network unique mode capability, an uplink synchronous channel auxiliary carrier configuration capability and a power pool capability; the reported actual baseband resource capability information is as follows: at least one of types of the actual baseband resource capability information.

3. The method of claim 2 wherein the Node B reports in an active manner; the process of realizing reporting in an active mode comprises the following steps: and the Node B encapsulates the actual baseband resource capability information in a resource state indication message and reports the resource state indication message to the RNC.

4. The method of claim 2 wherein the reporting by the Node B is specifically a passive mode; the process of realizing reporting in a passive mode comprises the following steps: node B responds to the audit request message sent by RNC, and encapsulates the actual baseband resource capability information in the audit response message and reports to RNC.

5. A carrier frequency capability reporting device is characterized in that the device comprises a reporting unit, which is used for a NodeB to report the actual baseband resource capability information corresponding to the cell carrier frequency to an RNC (radio network controller), so that the RNC executes the corresponding configuration processing operation aiming at the received actual baseband resource capability information;

wherein the configuration processing operation comprises: configuring and processing operation on a physical shared channel, configuring and processing operation on a common channel and configuring and processing operation on other resources;

the executing the corresponding configuration processing operation for the received actual baseband resource capability information comprises:

under the condition that the received actual baseband resource capability information corresponding to the current carrier frequency is available for enhancing the capability of the uplink dedicated channel, configuring the physical shared channel, and establishing high-speed uplink packet access on the current carrier frequency; or,

under the condition that the received actual baseband resource capability information corresponding to the current auxiliary carrier frequency is that the uplink synchronization channel auxiliary carrier configuration capability is available, configuring the common channel, and establishing the uplink synchronization channel on the current auxiliary carrier frequency; or,

under the condition that the received actual baseband resource capability information corresponding to the current carrier frequency is available for the high-speed downlink packet access capability, configuring a physical shared channel, and establishing the high-speed downlink packet access on the current carrier frequency; or,

under the condition that the received actual baseband resource capability information corresponding to the current carrier frequency is available for the single-frequency point multimedia multicast broadcast service network unique mode capability, configuring a common channel, and establishing a time slot corresponding to the single-frequency point multimedia multicast broadcast service network on the current carrier frequency; or,

and under the condition that the received actual baseband resource capacity information corresponding to the first carrier frequency is available for the power pool capacity, and the received actual baseband resource capacity information corresponding to the second carrier frequency is available for the power pool capacity, adopting an inter-carrier frequency power pool capacity sharing mechanism between the first carrier frequency and the second carrier frequency.

6. The apparatus of claim 5, wherein the reporting unit is further configured to implement reporting by the Node B in an active manner, so that the Node B encapsulates the actual baseband resource capability information in a resource status indication message and reports the resource status indication message to the RNC.

7. The apparatus of claim 5, wherein the reporting unit is further configured to enable the Node B to report in a passive manner, so that the Node B responds to an audit request message sent by the RNC, and encapsulates the actual baseband resource capability information in an audit response message and reports the audit response message to the RNC.

8. The apparatus according to any one of claims 5 to 7, further comprising a processing unit, configured to perform a corresponding configuration processing operation by the RNC with respect to the received actual baseband resource capability information.