CN104041155A - Configuration method of high-speed dedicated physical control channel and wireless network controller - Google Patents

Abstract

Embodiments of the present invention relate to the communications technology field. Disclosed are a configuration method of a high-speed dedicated physical control channel and a wireless network controller, which solve problems in prior art that a base station may not receive information returned as feedback by a UE and an uplink power resource is wasted. The method comprises: the wireless network controller configuring at least two sets of HS-DPCCH channel configuration information; the wireless network controller sending the at least two sets of HS-DPCCH channel configuration information to a user equipment under the base station controlled by the wireless network controller; the at least two sets of HS-DPCCH channel configuration information being used for configuring multiple HS-DPCCH channels respectively, wherein each set of HS-DPCCH channel configuration information corresponds to one or multiple HS-DPCCH channels. The present invention applies to HS-DPCCH channel configuration in a multi-stream transmission technology and a heterogeneous network.

Description

Configuration method of high-speed dedicated physical control channel and wireless network controller

The collocation method and radio network controller of High-Speed Dedicated Physical Control Channel

Technical field

The present invention relates to the collocation method and radio network controller of communication technical field, more particularly to a kind of High-Speed Dedicated Physical Control Channel.

Background technology

Currently, base station NodeB can share physical channel (High-Speed Physical Downlink Shared Channel, abbreviation HS-PDSCH) to user equipment by the high-speed down link of physical layer（User Equipment, abbreviation UE) send data, base station sends the control signaling relevant with HS-PDSCH to UE by High-Speed Shared Control Channel (High-Speed Shared Control Channel, abbreviation HS-SCCH) simultaneously.UE is demodulated to HS-PDSCH and decode by control signaling etc. and operate after the control signaling of HS-SCCH carryings is received.Then UE is according to the reception condition of the control signaling for being carried on HS-SCCH, and to HS-PDSCH decoding correctness, generate positive acknowledgment (Acknowledgement, abbreviation ACK)/NACK (Non-Acknowledgement, NACK)/send (No Transmission without data, abbreviation DTX) etc. information, in addition UE also have detected the situation of down channel, generate channel quality instruction（Channel Quality Indicator, abbreviation CQI) information.The feedback information of the information such as above-mentioned ACK/NACK/DTX and the formation of CQI information is carried on High-Speed Dedicated Physical Control Channel (High-Speed Dedicated Physical Control Channel by UE, abbreviation HS-DPCCH) on, be sent to base station so that the information such as the ACK/NACK/DTX of base station in feedback information and CQI information as traffic scheduling foundation.

In multicarrier/multiple cell technology, when cell number is more, such as when cell number increases to 8, it may be necessary to use two HS-DPCCH channels, general radio network controller（Radio Network Controller, abbreviation RNC) when configuring each bar HS-DPCCH channels, be typically For each bar HS-DPCCH channel configurations identical power.

During the embodiment of the present invention is realized, inventor has found that at least there are the following problems in the prior art：

Because current multiple stream transmission can be carried out in the cell under different base stations, the environment of each base station is various, the distance of each center of housing estate under UE to each base station in base station is not necessarily identical, when RNC is each bar HS-DPCCH channel configurations identical power, may be because each bar HS-DPCCH fading profiles differ greatly and can not ensure that all HS-DPCCH channels disclosure satisfy that demodulation is required, and cause base station to normally receive UE feedacks, if configured according to the peak power required for a plurality of HS-DPCCH channels simultaneously, the waste of uplink power resource can be caused again.

The content of the invention

The present invention provides a kind of collocation method and radio network controller of High-Speed Dedicated Physical Control Channel, can solve the problem that base station may not receive UE feedacks in the prior art, and uplink power resource is the problem of waste.

To reach above-mentioned purpose, the present invention is adopted the following technical scheme that：

First aspect there is provided a kind of High-Speed Dedicated Physical Control Channel HS-DPCCH collocation method, including：

Radio network controller configures at least two sets HS-DPCCH channel configuration informations；

At least two sets HS-DPCCH channel configuration informations are sent to the user equipment under the base station that the radio network controller is controlled by radio network controller；

At least two sets HS-DPCCH channel configuration informations are used to respectively configure a plurality of HS-DPCCH channels, each of which set HS-DPCCH channel configuration information one or more HS-DPCCH channels of correspondence.

With reference to described in a first aspect, in the first implementation of the first aspect, the radio network controller configures at least two sets HS-DPCCH channel configuration informations, including：

The radio network controller at least two sets HS-DPCCH channel configuration informations according to being configured the channel related information of HS-DPCCH channels.

With reference to the first implementation of the first aspect, in second of realization of the first aspect In mode, the channel related information includes the HS-DPCCH channel qualities that the base station is detected, or the positional information of the user equipment under the base station, before the radio network controller at least two sets HS-DPCCH channel configuration informations according to the configuration of the channel related information of HS-DPCCH channels, including：

HS-DPCCH channel qualities or the positional information of the user equipment that the radio network controller reception base station is reported.

With reference to described in a first aspect, in the third implementation of the first aspect, the configuration information includes power information, and the radio network controller configures at least two sets HS-DPCCH channel configuration informations, including：

The radio network controller configures at least two sets power informations, thinks a plurality of HS-DPCCH channels difference distribution power.

With reference to described in a first aspect, in the 4th kind of implementation of the first aspect, the configuration information includes timing information, and the radio network controller configures at least two sets HS-DPCCH channel configuration informations, in addition to：

The radio network controller configures at least two sets timing informations, to cause the up timing of a plurality of HS-DPCCH channels different.

It is described that a plurality of HS-DPCCH channels are configured with reference to described in a first aspect, in the 5th kind of implementation of the first aspect, including：

The radio network controller is described one HS-DPCCH channel of user device configuration for a base station；Or,

The Radio Network Controller is described one HS-DPCCH channel of user device configuration for a sector；Or,

The radio network controller is described one HS-DPCCH channel of user device configuration for one group of cell with identical descending timing.

Second aspect there is provided a kind of radio network controller, including：

Dispensing unit, for configuring at least two sets HS-DPCCH channel configuration informations；

Transmitting element, for by least two sets HS-DPCCH channel configurations of the configuration of described dispensing unit Information is sent to the user equipment under the base station that the radio network controller is controlled；At least two sets HS-DPCCH channel configuration informations are used to respectively configure a plurality of HS-DPCCH channels, each of which set HS-DPCCH channel configuration information one or more HS-DPCCH channels of correspondence.

With reference to the second aspect, in the first implementation of the second aspect, the dispensing unit, specifically for：

At least two sets H S-DP C C H-channel configuration informations according to the configuration of the channel related information of H S-DP C C H-channels.

With reference to the first implementation of the second aspect, in second of implementation of the second aspect, the channel related information includes the HS-DPCCH channel qualities that the base station is detected, or the positional information of the user equipment under the base station, the radio network controller, in addition to：Receiving unit, the positional information for receiving HS-DPCCH channel qualities that base station reports or the user equipment.

With reference to the second aspect, in the third implementation of the second aspect, the configuration information include power information, the dispensing unit, specifically for：

At least two sets power informations are configured, a plurality of HS-DPCCH channels difference distribution power is thought.With reference to the second aspect, in the 4th kind of implementation of the second aspect, the configuration information include timing information, the dispensing unit, specifically for：

At least two sets timing informations are configured, to cause the up timing of a plurality of HS-DPCCH channels different.

With reference to the second aspect, in the 5th kind of implementation of the second aspect, the dispensing unit is additionally operable to：

It is described one HS-DPCCH channel of user device configuration for a base station；

Or for a sector be described one HS-DPCCH channel of user device configuration；Or there is the cell of identical descending timing for the user device configuration one for one group

HS-DPCCH channels.

The third aspect there is provided a kind of radio network controller, including： Processor, for configuring at least two sets HS-DPCCH channel configuration informations；

Transmitter, at least two sets HS-DPCCH channel configuration informations for the processor to be configured are sent to the user equipment under the base station that the radio network controller is controlled；

At least two sets HS-DPCCH channel configuration informations are used to respectively configure a plurality of HS-DPCCH channels, each of which set HS-DPCCH channel configuration information one or more HS-DPCCH channels of correspondence.

With reference to the third aspect, in the first implementation of the third aspect, the processor, specifically for：

At least two sets H S-DP C C H-channel configuration informations according to the configuration of the channel related information of H S-DP C C H-channels.

With reference to the first implementation of the third aspect, in second of implementation of the third aspect, the channel related information includes the HS-DPCCH channel qualities that the base station is detected, or the positional information of the user equipment under the base station, the radio network controller, in addition to：Receiver, the positional information for receiving HS-DPCCH channel qualities that base station reports or the user equipment.

With reference to the third aspect, in the third implementation of the third aspect, the configuration information include power information, the processor, specifically for：

At least two sets power informations are configured, a plurality of HS-DPCCH channels difference distribution power is thought.With reference to the third aspect, in the 4th kind of implementation of the third aspect, the configuration information include timing information, the processor, specifically for：

At least two sets timing informations are configured, to cause the up timing of a plurality of HS-DPCCH channels different.

With reference to the third aspect, in the 5th kind of implementation of the third aspect, the processor is additionally operable to：

It is described one HS-DPCCH channel of user device configuration for a base station；

Or for a sector be described one HS-DPCCH channel of user device configuration；Or there is the cell of identical descending timing for the user device configuration one for one group HS-DPCCH channels.

The collocation method and radio network controller for the High-Speed Dedicated Physical Control Channel that the present invention is provided, because radio network controller is configured with least two sets HS-DPCCH channel configuration informations；And at least two sets HS-DPCCH channel configuration informations are sent to the user equipment under the base station that the radio network controller is controlled, to be configured to a plurality of HS-DPCCH channels.And prior art is only a set of HS-DPCCH channel configuration informations of radio network controller configuration to configure a plurality of HS-DPCCH channels, therefore similarly configured present invention, avoiding unified for a plurality of HS-DPCCH channels, so as to ensure that each bar HS-DPCCH channels disclosure satisfy that demodulation is required, and the feedback information for enabling user equipment to be sent according to the Configuration Values reaches the base station, avoid and configured according to the peak power required for a plurality of HS-DPCCH channels simultaneously, so as to avoid the waste of uplink power resource.

The accompanying drawing used required in brief description of the drawings embodiment or description of the prior art is briefly described, apparently, drawings in the following description are only some embodiments of the present invention, for those of ordinary skill in the art, without having to pay creative labor, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the flow chart of High-Speed Dedicated Physical Control Channel HS-DPCCH provided in an embodiment of the present invention collocation method；

The flow chart of the collocation method for the High-Speed Dedicated Physical Control Channel HS-DPCCH that Fig. 2 provides for further embodiment of this invention；

Fig. 3 is the structural representation one of radio network controller provided in an embodiment of the present invention；Fig. 4 is the structural representation two of radio network controller provided in an embodiment of the present invention；The structural representation one for the radio network controller that Fig. 5 provides for further embodiment of this invention；The structural representation two for the radio network controller that Fig. 6 provides for further embodiment of this invention.Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the invention, Rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made belongs to the scope of protection of the invention.

To make the advantage of technical solution of the present invention clearer, the present invention is kept company with reference to the accompanying drawings and examples, and it is bright to describe in detail.

As shown in Fig. 1, High-Speed Dedicated Physical Control Channel HS-DPCCH provided in an embodiment of the present invention collocation method, including：

101st, radio network controller configures at least two sets HS-DPCCH channel configuration informations.

Specifically, the configuration information includes power information and timing information etc., but it is not only limited to this.Wherein, the power information is used to distinguish distribution power for a plurality of HS-DPCCH channels, the timing information is used to be a plurality of up timing of HS-DPCCH channel configurations, the up timing of wherein each bar HS-DPCCH channels could be arranged to difference, to ensure the independence of every HS-DPCCH multi-channel operation, every HS-DPCCH channel will not be influenceed when sending upstream data by other HS-DPCCH channels.In addition, can also include sending the information such as cycle, frequency and the number of repetition of upstream data by each bar HS-DPCCH channels in the configuration information, but it is not only limited to this.Wherein described upstream data can be the feedback information that user equipment is sent to base station.

Specifically, the feedback information can include：Positive acknowledgment（Acknowledgement, abbreviation ACK)/NACK (Non-Acknowledgement, NACK)/sent without data（No Transmission, abbreviation DTX) etc. information, and channel quality indicate（1 Qua of Channe 1 i ty Indicator, abbreviation CQI) information such as information and the pre-coding matrix in Multiple Input Multiple Output, but it is not only limited to this.

Wherein, user equipment is according to the reception condition of the control signaling for being carried on high-speed shared control channel HS-SCCH, and physical channel HS-PDSCH decoding correctness is shared to high-speed down link, the information such as ACK/NACK/ DTX are generated, while user equipment have detected the situation of down channel and generate the channel quality indicator CQI information.

Specifically, the radio network controller can according to the channel related information of HS-DPCCH channels configuration described at least two sets HS-DPCCH channel configuration informations.Wherein, the channel related information Can include the HS-DPCCH channel qualities that detect of the base station, or the user equipment under the base station positional information.For example, when radio network controller configures power information according to the HS-DPCCH channel qualities, can be for the relatively low one higher performance number of distribution of HS-DPCCH channel qualities, and it is the higher one relatively low performance number of distribution of HS-DPCCH channel qualities, but it is not only limited to this.In another example, when radio network controller configures power information according to the positional information of the user equipment, can be a certain center of housing estate of positional distance of user equipment position it is nearer, the performance number that the user equipment is then distributed in the HS-DPCCH channels used in the cell is smaller, otherwise a larger performance number can be distributed, but is not only limited to this.

102nd, at least two sets HS-DPCCH channel configuration informations are sent to the user equipment under the base station that the radio network controller is controlled by radio network controller.

Wherein, at least two sets HS-DPCCH channel configuration informations are used to respectively configure a plurality of HS-DPCCH channels, each of which set HS-DPCCH channel configuration information one or more HS-DPCCH channels of correspondence.

In addition, at least two sets HS-DPCCH channel configuration informations can also be sent to its base station controlled by the radio network controller.

The collocation method of High-Speed Dedicated Physical Control Channel provided in an embodiment of the present invention, because radio network controller is configured with least two sets HS-DPCCH channel configuration informations；And at least two sets HS-DPCCH channel configuration informations are sent to the user equipment under the base station that the radio network controller is controlled, to be configured to a plurality of HS-DPCCH channels.And prior art is only a set of HS-DPCCH channel configuration informations of radio network controller configuration to configure a plurality of HS-DPCCH channels, therefore similarly configured present invention, avoiding unified for a plurality of HS-DPCCH channels, so as to ensure that each bar HS-DPCCH channels disclosure satisfy that demodulation is required, and the feedback information for enabling user equipment to be sent according to the Configuration Values reaches the base station, avoid and configured according to the peak power required for a plurality of HS-DPCCH channels simultaneously, so as to avoid the waste of uplink power resource.

As shown in Fig. 2 the collocation method for the High-Speed Dedicated Physical Control Channel that further embodiment of this invention is provided, including：

201st, radio network controller distribution HS-DPCCH channel resources. Specifically the method for salary distribution can be：The radio network controller is described one HS-DPCCH channel of user device configuration for a base station, for example under one base station there are multiple cells, then the user equipment can be by same HS-DPCCH channels to multiple cell send feedback informations under above-mentioned same base station, or the Radio Network Controller is described one HS-DPCCH channel of user device configuration for a sector, multiple cells can for example be included in one sector, then the user equipment can pass through multiple cell send feedback informations of the same HS-DPCCH channels into above-mentioned same sector, or the radio network controller is described one HS-DPCCH channel of user device configuration for one group of cell with identical descending timing, but it is not only limited to this.

202nd, the radio network controller receives the channel related information for the HS-DPCCH channels that base station is reported.

Specifically, the radio network controller reception channel related information can be the positional information of the HS-DPCCH channel qualities that reception base station is reported or the user equipment.

Wherein, the positional information of the user equipment can user equipment itself reported to base station, then the radio network controller is reported by base station.

203rd, the radio network controller at least two sets HS-DPCCH channel configuration informations according to the configuration of the channel related information of HS-DPCCH channels.

Specifically, the radio network controller can be according to the positional information of the HS-DPCCH channel qualities or the user equipment, the power information of at least two sets HS-DPCCH channels described in configuration.Wherein, the channel related information can include the HS-DPCCH channel qualities that detect of the base station, or the user equipment under the base station positional information.For example, when radio network controller configures power information according to the HS-DPCCH channel qualities, can for the relatively low one higher performance number of distribution of HS-DPCCH channel qualities, and be the higher one relatively low performance number of distribution of HS-DPCCH channel qualities, but be not only limited to this.In another example, when radio network controller configures power information according to the positional information of the user equipment, can be a certain center of housing estate of positional distance of user equipment position it is nearer, the performance number that the user equipment is then distributed in the HS-DPCCH channels used in the cell is smaller, otherwise a larger performance number can be distributed, but is not only limited to this.

Specifically, after the power information is sent to user equipment by radio network controller, user Equipment can calculate the power needed for obtaining each bar HS-DPCCH channels according to the power information, can be that user equipment calculates the performance number for getting a plurality of HS-DPCCH channels so as to be assigned with performance number respectively for a plurality of HS-DPCCH channels.Either user equipment calculates the first performance number of a HS-DPCCH channel therein for a plurality of HS-DPCCH channels, and on the basis of first performance number, calculating gets remaining each bar HS-DPCCH channel in a plurality of HS-DPCCH channels and the deviation of first performance number, and then gets according to the deviation performance number of each bar HS-DPCCH channels.

In addition, the radio network controller configures at least two sets timing informations, to cause the up timing of a plurality of HS-DPCCH channels different.

Specifically, when radio network controller configures the timing of a plurality of HS-DPCCH channels, the up timing all same of every HS-DPCCH channel can be set, the up timing of every HS-DPCCH channel can also be set different, either set the up timing of a few HS-DPCCH channels in a plurality of HS-DPCCH channels identical, it is different that remaining is set to up timing.It should be noted that, the up timing that the radio network controller configures a plurality of HS-DPCCH channels is different, to ensure the independence of every HS-DPCCH multi-channel operation, every HS-DPCCH channel will not be influenceed when sending upstream data by other HS-DPCCH channels.

In addition, above-mentioned steps 203 can also configure other configurations information, the information such as cycle, frequency and the number of repetition that upstream data is sent by each bar HS-DPCCH channels, but it is not only limited to this.

204th, at least two sets HS-DPCCH channel configuration informations are sent to the user equipment under the base station that the radio network controller is controlled by radio network controller.

Wherein, at least two sets HS-DPCCH channel configuration informations are used to respectively configure a plurality of HS-DPCCH channels, each of which set HS-DPCCH channel configuration information one or more HS-DPCCH channels of correspondence.

In addition, at least two sets HS-DPCCH channel configuration informations can also be sent to its base station controlled by the radio network controller.

205th, the user equipment according to the configuration information to the base station send feedback information. Wherein, the feedback information can include：Positive acknowledgment（Acknowledgement, abbreviation ACK)/NACK (Non-Acknowledgement, NACK)/sent without data（No Transmission, abbreviation DTX) etc. information, and channel quality indicate（1 Qua of Channe 1 i ty Indicator, abbreviation CQI) information such as information and the pre-coding matrix in Multiple Input Multiple Output, but it is not only limited to this.

Wherein, user equipment is according to the reception condition of the control signaling for being carried on high-speed shared control channel HS-SCCH, and physical channel HS-PDSCH decoding correctness is shared to high-speed down link, the information such as ACK/NACK/ DTX are generated, while user equipment have detected the situation of down channel and generate the channel quality indicator CQI information.

The collocation method for the High-Speed Dedicated Physical Control Channel that further embodiment of this invention is provided, because radio network controller is configured with least two sets HS-DPCCH channel configuration informations；And at least two sets HS-DPCCH channel configuration informations are sent to the user equipment under the base station that the radio network controller is controlled, to be configured to a plurality of HS-DPCCH channels.And prior art is only a set of HS-DPCCH channel configuration informations of radio network controller configuration to configure a plurality of HS-DPCCH channels, therefore similarly configured present invention, avoiding unified for a plurality of HS-DPCCH channels, so as to ensure that each bar HS-DPCCH channels disclosure satisfy that demodulation is required, and the feedback information for enabling user equipment to be sent according to the Configuration Values reaches the base station, avoid and configured according to the peak power required for a plurality of HS-DPCCH channels simultaneously, so as to avoid the waste of uplink power resource.

As shown in figure 3, radio network controller provided in an embodiment of the present invention, including：

Dispensing unit 31, for configuring at least two sets HS-DPCCH channel configuration informations.Its specific implementation is referring to shown in step 101 in Fig. 1, and no longer Redundant is stated herein.

Transmitting element 32, at least two sets HS-DPCCH channel configuration informations for the dispensing unit 31 to be configured are sent to the user equipment under the base station that the radio network controller is controlled.Its specific implementation is referring to shown in step 102 in Fig. 1, and no longer Redundant is stated herein.

Wherein, at least two sets HS-DPCCH channel configuration informations are used to respectively configure a plurality of HS-DPCCH channels, each of which set HS-DPCCH channel configuration informations correspondingly one or A plurality of HS-DPCCH channels.

Further, as shown in figure 4, dispensing unit 31, specifically for：

At least two sets H S-DP C C H-channel configuration informations according to the configuration of the channel related information of H S-DP C C H-channels.Its specific implementation is referring to shown in step 203 in Fig. 2, and no longer Redundant is stated herein.

Specifically, as shown in Fig. 4, the channel related information includes the HS-DPCCH channel qualities that the base station is detected, or the user equipment under the base station positional information, the radio network controller, in addition to：

Receiving unit 33, the positional information for receiving HS-DPCCH channel qualities that base station reports or the user equipment.Its specific implementation is referring to shown in step 202 in Fig. 2, and no longer Redundant is stated herein.

Further, as shown in figure 4, the configuration information include power information, the dispensing unit 31, specifically for：

At least two sets power informations are configured, a plurality of HS-DPCCH channels difference distribution power is thought.Its specific implementation is referring to shown in step 203 in Fig. 2, and no longer Redundant is stated herein.

Further, as shown in figure 4, the configuration information include timing information, the dispensing unit 31, specifically for：

At least two sets timing informations are configured, to cause the up timing of a plurality of HS-DPCCH channels different.Its specific implementation is referring to shown in step 203 in Fig. 2, and no longer Redundant is stated herein.

Further, as shown in figure 4, the dispensing unit 31, is additionally operable to：

It is described one HS-DPCCH channel of user device configuration for a base station.

Or for a sector be described one HS-DPCCH channel of user device configuration.

Or there is the cell of identical descending timing for described one HS-DPCCH channel of user device configuration for one group.Its specific implementation is referring to shown in step 201 in Fig. 2, and no longer Redundant is stated herein.

The radio network controller that the present invention is provided, because radio network controller is configured with least two sets HS-DPCCH channel configuration informations；And at least two sets HS-DPCCH channel configuration informations are sent to the user equipment under the base station that the radio network controller is controlled, with to a plurality of HS-DPCCH Channel is configured.And prior art is only a set of HS-DPCCH channel configuration informations of radio network controller configuration to configure a plurality of HS-DPCCH channels, therefore similarly configured present invention, avoiding unified for a plurality of HS-DPCCH channels, so as to ensure that each bar HS-DPCCH channels disclosure satisfy that demodulation is required, and the feedback information for enabling user equipment to be sent according to the Configuration Values reaches the base station, avoid and configured according to the peak power required for a plurality of HS-DPCCH channels simultaneously, so as to avoid the waste of uplink power resource.

As shown in figure 5, the radio network controller that further embodiment of this invention is provided, including：Processor 41, for configuring at least two sets HS-DPCCH channel configuration informations.Its specific implementation is referring to shown in step 1 in Fig. 1 01, and no longer Redundant is stated herein.

Transmitter 42, at least two sets HS-DPCCH channel configuration informations for the processor to be configured are sent to the user equipment under the base station that the radio network controller is controlled.Its specific implementation is referring to shown in step 1 in Fig. 1 02, and no longer Redundant is stated herein.

At least two sets HS-DPCCH channel configuration informations are used to respectively configure a plurality of HS-DPCCH channels, each of which set HS-DPCCH channel configuration information one or more HS-DPCCH channels of correspondence.

Further, as shown in fig. 6, the processor 42, specifically for：

At least two sets H S-DP C C H-channel configuration informations according to the configuration of the channel related information of H S-DP C C H-channels.Its specific implementation is referring to shown in step 203 in Fig. 2, and no longer Redundant is stated herein.

Specifically, as shown in Fig. 6, the channel related information includes the HS-DPCCH channel qualities that the base station is detected, or the user equipment under the base station positional information, the radio network controller, in addition to：

Receiver 43, the positional information for receiving HS-DPCCH channel qualities that base station reports or the user equipment.Its specific implementation is referring to shown in step 202 in Fig. 2, and no longer Redundant is stated herein.

Further, as shown in Fig. 6, the configuration information include power information, the processor 41, specifically for：

At least two sets power informations are configured, a plurality of HS-DPCCH channels difference distribution power is thought.Its specific implementation is referring to shown in step 203 in Fig. 2, and no longer Redundant is stated herein. Further, as shown in Fig. 6, the configuration information include timing information, the processor 41, specifically for：

At least two sets timing informations are configured, to cause the up timing of a plurality of HS-DPCCH channels different.Its specific implementation is referring to shown in step 203 in Fig. 2, and no longer Redundant is stated herein.

Further, as shown in fig. 6, the processor 41, is additionally operable to：

It is described one HS-DPCCH channel of user device configuration for a base station.

Or for a sector be described one HS-DPCCH channel of user device configuration.

Or there is the cell of identical descending timing for described one HS-DPCCH channel of user device configuration for one group.Its specific implementation is referring to shown in step 201 in Fig. 2, and no longer Redundant is stated herein.

The radio network controller that the present invention is provided, because radio network controller is configured with least two sets HS-DPCCH channel configuration informations；And at least two sets HS-DPCCH channel configuration informations are sent to the user equipment under the base station that the radio network controller is controlled, to be configured to a plurality of HS-DPCCH channels.And prior art is only a set of HS-DPCCH channel configuration informations of radio network controller configuration to configure a plurality of HS-DPCCH channels, therefore similarly configured present invention, avoiding unified for a plurality of HS-DPCCH channels, so as to ensure that each bar HS-DPCCH channels disclosure satisfy that demodulation is required, and the feedback information for enabling user equipment to be sent according to the Configuration Values reaches the base station, avoid and configured according to the peak power required for a plurality of HS-DPCCH channels simultaneously, so as to avoid the waste of uplink power resource.

Through the above description of the embodiments, it is apparent to those skilled in the art that the present invention can add the mode of required common hardware to realize by software, naturally it is also possible to by hardware, but the former is more preferably embodiment in many cases.Understood based on such, the part that technical scheme substantially contributes to prior art in other words can be embodied in the form of software product, the computer software product is stored in the storage medium that can be read, such as the floppy disk of computer, hard disk or CD etc., including some instructions are to cause a computer equipment（Can be personal computer, server, or network equipment etc.）Perform the method described in each embodiment of the invention.

The foregoing is only a specific embodiment of the invention, but protection scope of the present invention not office Be limited to this, any one skilled in the art the invention discloses technical scope in, change or replacement can be readily occurred in, should be all included within the scope of the present invention.Therefore, protection scope of the present invention described should be defined by scope of the claims.

Claims (16)

1. Claims

   1st, a kind of High-Speed Dedicated Physical Control Channel HS-DPCCH collocation method, it is characterised in that including：

   Radio network controller configures at least two sets HS-DPCCH channel configuration informations；

   At least two sets HS-DPCCH channel configuration informations are sent to the user equipment under the base station that the radio network controller is controlled by radio network controller；

   At least two sets HS-DPCCH channel configuration informations are used to respectively configure a plurality of HS-DPCCH channels, each of which set HS-DPCCH channel configuration information one or more HS-DPCCH channels of correspondence.

   2nd, according to the method described in claim 1, it is characterised in that the radio network controller configures at least two sets HS-DPCCH channel configuration informations, including：

   The radio network controller at least two sets HS-DPCCH channel configuration informations according to being configured the channel related information of HS-DPCCH channels.

   3rd, method according to claim 2, it is characterized in that, the channel related information includes the HS-DPCCH channel qualities that the base station is detected, or the positional information of the user equipment under the base station, before the radio network controller at least two sets HS-DPCCH channel configuration informations according to the configuration of the channel related information of HS-DPCCH channels, including：

   HS-DPCCH channel qualities or the positional information of the user equipment that the radio network controller reception base station is reported.

   4th, according to the method described in claim 1, it is characterised in that the configuration information includes power information, the radio network controller configures at least two sets HS-DPCCH channel configuration informations, including：The radio network controller configures at least two sets power informations, thinks a plurality of HS-DPCCH channels difference distribution power.

   5th, according to the method described in claim 1, it is characterised in that the configuration information includes timing information, the radio network controller configures at least two sets HS-DPCCH channel configuration informations, in addition to：The radio network controller configures at least two sets timing informations, to cause the up timing of a plurality of HS-DPCCH channels different. 6th, the method according to claim 1, it is characterised in that described to be configured to a plurality of HS-DPCCH channels, including：

   The radio network controller is described one HS-DPCCH channel of user device configuration for a base station；

   Or the Radio Network Controller is described one HS-DPCCH channel of user device configuration for a sector；

   Or the radio network controller is described one HS-DPCCH channel of user device configuration for one group of cell with identical descending timing.

   7th, a kind of radio network controller, it is characterised in that including：

   Dispensing unit, for configuring at least two sets HS-DPCCH channel configuration informations；

   Transmitting element, for the user equipment being sent at least two sets HS-DPCCH channel configuration informations of the configuration of described dispensing unit under the base station that the radio network controller is controlled；

   At least two sets HS-DPCCH channel configuration informations are used to respectively configure a plurality of HS-DPCCH channels, each of which set HS-DPCCH channel configuration information one or more HS-DPCCH channels of correspondence.

   8th, radio network controller according to claim 7, it is characterised in that dispensing unit, specifically for：

   At least two sets HS-DPCCH channel configuration informations according to the configuration of the channel related information of HS-DPCCH channels.

   9th, radio network controller according to claim 8, characterized in that, the channel related information includes the HS-DPCCH channel qualities that detect of the base station, or the user equipment under the base station positional information, the radio network controller, in addition to：

   Receiving unit, the positional information for receiving HS-DPCCH channel qualities that base station reports or the user equipment.

   10th, the radio network controller according to claim 7, it is characterised in that the configuration information include power information, the dispensing unit, specifically for：

   At least two sets power informations are configured, a plurality of HS-DPCCH channels difference distribution power is thought. 11st, the radio network controller according to claim 7, it is characterised in that the configuration information include timing information, the dispensing unit, specifically for：

   At least two sets timing informations are configured, to cause the up timing of a plurality of HS-DPCCH channels different.

   12nd, the radio network controller according to claim 7, it is characterised in that the dispensing unit, is additionally operable to：

   It is described one HS-DPCCH channel of user device configuration for a base station；

   Or for a sector be described one HS-DPCCH channel of user device configuration；

   Or there is the cell of identical descending timing for described one HS-DPCCH channel of user device configuration for one group.

   13, a kind of radio network controller, it is characterised in that including：

   Processor, for configuring at least two sets HS-DPCCH channel configuration informations；

   Transmitter, at least two sets HS-DPCCH channel configuration informations for the processor to be configured are sent to the user equipment under the base station that the radio network controller is controlled；

   At least two sets HS-DPCCH channel configuration informations are used to respectively configure a plurality of HS-DPCCH channels, each of which set HS-DPCCH channel configuration information one or more HS-DPCCH channels of correspondence.

   14th, the radio network controller according to claim 13, it is characterised in that the processor, specifically for：

   At least two sets HS-DPCCH channel configuration informations according to the configuration of the channel related information of HS-DPCCH channels.

   15th, radio network controller according to claim 14, characterized in that, the channel related information includes the HS-DPCCH channel qualities that detect of the base station, or the user equipment under the base station positional information, the radio network controller, in addition to：

   Receiver, the positional information for receiving HS-DPCCH channel qualities that base station reports or the user equipment.

   16th, the radio network controller according to claim 13, it is characterised in that the configuration Information include power information, the processor, specifically for：

   At least two sets power informations are configured, a plurality of HS-DPCCH channels difference distribution power is thought.

   17th, the radio network controller according to claim 13, it is characterised in that the configuration information include timing information, the processor, specifically for：

   At least two sets timing informations are configured, to cause the up timing of a plurality of HS-DPCCH channels different.

   18th, the radio network controller according to claim 13, it is characterised in that the processor, is additionally operable to：

   It is described one HS-DPCCH channel of user device configuration for a base station；

   Or for a sector be described one HS-DPCCH channel of user device configuration；

   Or there is the cell of identical descending timing for the user device configuration one for one group

   HS-DPCCH channels.