WO2014067121A1

WO2014067121A1 - Configuration method of high-speed dedicated physical control channel and wireless network controller

Info

Publication number: WO2014067121A1
Application number: PCT/CN2012/083929
Authority: WO
Inventors: 徐文颖; 汪凡
Original assignee: 华为技术有限公司
Priority date: 2012-11-01
Filing date: 2012-11-01
Publication date: 2014-05-08
Also published as: CN104041155B; CN104041155A

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

High-speed dedicated physical control channel configuration method and wireless network controller

Technical field

The present invention relates to the field of communications technologies, and in particular, to a method for configuring a high-speed dedicated physical control channel and a radio network controller.

Background technique

Currently, the base station NodeB can transmit data to a user equipment (User Equipment, UE for short) through a high-speed physical downlink shared channel (HS-PDSCH) of the physical layer, and the base station shares the control channel through a high speed. (High-Speed Shared Control Channel, abbreviated as HS-SCCH) Sends control signaling related to HS-PDSCH to the UE. After receiving the control signal of the HS-SCCH bearer, the UE performs operations such as demodulation and decoding of the HS-PDSCH through control signaling. Then, the UE generates an Acknowledgement (ACK) or a Non-Acknowledgement (NACK)/No Data according to the reception condition of the control signaling carried in the HS-SCCH and the decoding of the HS-PDSCH. Information such as No Transmission (DTX) is transmitted. In addition, the UE also detects the status of the downlink channel and generates Channel Quality Indicator (CQI) information. The UE carries the above-mentioned ACK/NACK/DTX information and the feedback information formed by the CQI information on a High-Speed Dedicated Physical Control Channel (HS-DPCCH), and sends the information to the base station, so that the base station according to the feedback information Information such as ACK/NACK/DTX and CQI information are used as the basis for service scheduling.

In the multi-carrier/multi-cell technology, when the number of cells is large, for example, when the number of cells is increased to eight, two HS-DPCCH channels may be required, and a general radio network controller (RNC) is configured. When each HS-DPCCH channel is usually Configure the same power for each HS-DPCCH channel.

In the process of implementing the embodiments of the present invention, the inventors have found that at least the following problems exist in the prior art:

The current multi-stream transmission can be performed in a cell under different base stations, and the environment of each base station is diverse. The distance between the UE in the base station and each cell center under each base station is not necessarily the same, when the RNC is each HS-DPCCH channel. When the same power is configured, the fading of each HS-DPCCH may be different, and it is impossible to ensure that all HS-DPCCH channels can meet the demodulation requirements, and the base station cannot receive the information fed back by the UE. The maximum power required for multiple HS-DPCCH channels is configured, which in turn causes waste of uplink power resources.

Summary of the invention

The present invention provides a method for configuring a high-speed dedicated physical control channel and a wireless network controller, which can solve the problem that the base station may not receive the information fed back by the UE in the prior art, and the uplink power resource is wasted.

In order to achieve the above object, the present invention adopts the following technical solutions:

In a first aspect, a method for configuring a high-speed dedicated physical control channel HS-DPCCH is provided, including:

The radio network controller configures at least two sets of HS-DPCCH channel configuration information;

The wireless network controller sends the at least two sets of HS-DPCCH channel configuration information to the user equipment under the base station controlled by the radio network controller;

The at least two sets of HS-DPCCH channel configuration information are used to separately configure a plurality of HS-DPCCH channels, wherein each set of HS-DPCCH channel configuration information corresponds to one or more HS-DPCCH channels.

With reference to the first aspect, in a first implementation manner of the first aspect, the radio network controller is configured with at least two sets of HS-DPCCH channel configuration information, including:

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

In conjunction with the first implementation of the first aspect, the second implementation of the first aspect In the mode, the channel related information includes an HS-DPCCH channel quality detected by the base station, or location information of a user equipment under the base station, where the radio network controller configures according to channel related information of an HS-DPCCH channel. Before the at least two sets of HS-DPCCH channel configuration information, the method includes:

The radio network controller receives the HS-DPCCH channel quality reported by the base station or the location information of the user equipment.

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

The radio network controller configures at least two sets of power information to separately allocate power for the plurality of HS-DPCCH channels.

With reference to the first aspect, in a fourth implementation manner of the first aspect, the configuration information includes timing information, where the radio network controller configures at least two sets of HS-DPCCH channel configuration information, and further includes:

The radio network controller configures at least two sets of timing information such that uplink timings of the plurality of HS-DPCCH channels are different.

With reference to the first aspect, in a fifth implementation manner of the first aspect, the configuring, by using the multiple HS-DPCCH channels, includes:

The radio network controller configures an HS-DPCCH channel for the user equipment for one base station; or

Configuring, by the radio network controller, one HS-DPCCH channel for the user equipment for one sector; or

The radio network controller configures an HS-DPCCH channel for the user equipment for a group of cells having the same downlink timing.

In a second aspect, a wireless network controller is provided, including:

a configuration unit, configured to configure at least two sets of HS-DPCCH channel configuration information;

a sending unit, configured to configure at least two sets of HS-DPCCH channels configured by the configuration unit The information is sent to the user equipment under the base station controlled by the radio network controller; the at least two sets of HS-DPCCH channel configuration information are used to respectively configure multiple HS-DPCCH channels, wherein each set of HS-DPCCH channels The configuration information corresponds to one or more HS-DPCCH channels.

With reference to the second aspect, in the first implementation manner of the second aspect, the configuration unit is specifically configured to:

And configuring the at least two sets of H S -DP C C H channel configuration information according to channel related information of the H S -DP C C H channel.

With reference to the first implementation of the second aspect, in a second implementation manner of the second aspect, the channel related information includes an HS-DPCCH channel quality detected by the base station, or The location information of the user equipment, the radio network controller, further includes: a receiving unit, configured to receive an HS-DPCCH channel quality reported by the base station or location information of the user equipment.

With reference to the second aspect, in a third implementation manner of the second aspect, the configuration information includes power information, and the configuration unit is specifically configured to:

At least two sets of power information are configured to allocate power to the plurality of HS-DPCCH channels. With reference to the second aspect, in a fourth implementation manner of the second aspect, the configuration information includes timing information, where the configuration unit is specifically configured to:

At least two sets of timing information are configured such that uplink timings of the plurality of HS-DPCCH channels are different.

With reference to the second aspect, in a fifth implementation manner of the second aspect, the configuration unit is further configured to:

Configuring an HS-DPCCH channel for the user equipment for one base station;

Or configuring one HS-DPCCH channel for the user equipment for one sector; or configuring one for the user equipment for a group of cells with the same downlink timing

HS-DPCCH channel.

In a third aspect, a wireless network controller is provided, including: a processor, configured to configure at least two sets of HS-DPCCH channel configuration information;

a transmitter, configured to send at least two sets of HS-DPCCH channel configuration information configured by the processor to a user equipment under a base station controlled by the radio network controller;

With reference to the third aspect, in a first implementation manner of the third aspect, the processor is specifically configured to:

With reference to the first implementation manner of the third aspect, in a second implementation manner of the third aspect, the channel related information includes an HS-DPCCH channel quality detected by the base station, or The location information of the user equipment, the radio network controller, further includes: a receiver, configured to receive an HS-DPCCH channel quality reported by the base station or location information of the user equipment.

With reference to the third aspect, in a third implementation manner of the third aspect, the configuration information includes power information, and the processor is specifically configured to:

At least two sets of power information are configured to allocate power to the plurality of HS-DPCCH channels. With reference to the third aspect, in a fourth implementation manner of the third aspect, the configuration information includes timing information, and the processor is specifically configured to:

With reference to the third aspect, in a fifth implementation manner of the third aspect, the processor is further configured to:

Configuring an HS-DPCCH channel for the user equipment for one base station;

Or configuring one HS-DPCCH channel for the user equipment for one sector; or configuring one for the user equipment for a group of cells with the same downlink timing HS-DPCCH channel.

The method for configuring a high-speed dedicated physical control channel and the radio network controller provided by the present invention, wherein the radio network controller configures at least two sets of HS-DPCCH channel configuration information; and sends the at least two sets of HS-DPCCH channel configuration information to The user equipment under the base station controlled by the radio network controller configures multiple HS-DPCCH channels. However, the prior art only configures a set of HS-DPCCH channel configuration information to configure multiple HS-DPCCH channels, so the present invention avoids uniformly configuring the same for multiple HS-DPCCH channels, thereby ensuring the same configuration. Each of the HS-DPCCH channels can meet the demodulation requirement, so that the feedback information sent by the user equipment according to the configuration value can reach the base station, and the configuration according to the maximum power required by multiple HS-DPCCH channels is avoided. Thereby avoiding waste of uplink power resources.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are to be regarded as Other drawings may also be obtained from these drawings without the inventive labor.

1 is a flowchart of a method for configuring a high-speed dedicated physical control channel HS-DPCCH according to an embodiment of the present invention;

2 is a flowchart of a method for configuring a high-speed dedicated physical control channel HS-DPCCH according to another embodiment of the present invention;

3 is a schematic structural diagram 1 of a radio network controller according to an embodiment of the present invention; FIG. 4 is a schematic structural diagram 2 of a radio network controller according to an embodiment of the present invention; FIG. FIG. 6 is a schematic structural diagram 2 of a wireless network controller according to another embodiment of the present invention. detailed description

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention. Rather than all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

In order to make the advantages of the technical solutions of the present invention clearer, the present invention will be described in detail below with reference to the accompanying drawings and embodiments.

As shown in FIG. 1 , a method for configuring a high-speed dedicated physical control channel HS-DPCCH according to an embodiment of the present invention includes:

101. The radio network controller configures at least two sets of HS-DPCCH channel configuration information.

Specifically, the configuration information includes power information, timing information, and the like, but is not limited thereto. The power information is used to separately allocate power for multiple HS-DPCCH channels, and the timing information is used to configure uplink timing for multiple HS-DPCCH channels, where uplink timing of each HS-DPCCH channel can be set to be different. To ensure the independence of each HS-DPCCH channel operation, each HS-DPCCH channel is not affected by other HS-DPCCH channels when transmitting uplink data. In addition, the configuration information may further include information such as a period, a frequency, and a repetition number of uplink data transmitted through each HS-DPCCH channel, but is not limited thereto. The uplink data may be feedback information sent by the user equipment to the base station.

Specifically, the feedback information may include: Acknowledgement (ACK) / Non-Acknowledgement (NACK) / No Transmission (DTX), and channel quality indicator ( Channe 1 Qua 1 i ty Indicator, abbreviated as CQI) Information and information such as precoding matrix in MIMO technology, but not limited to this.

The user equipment generates information such as ACK/NACK/DTX according to the reception condition of the control signaling carried on the high-speed shared control channel HS-SCCH and the decoding of the high-speed downlink shared physical channel HS-PDSCH. At the same time, the user equipment detects the condition of the downlink channel and generates the channel quality indication CQI information.

Specifically, the radio network controller may configure the at least two sets of HS-DPCCH channel configuration information according to channel related information of the HS-DPCCH channel. Wherein the channel related information The HS-DPCCH channel quality detected by the base station or the location information of the user equipment under the base station may be included. For example, when the radio network controller configures the power information according to the HS-DPCCH channel quality, it may allocate a higher power value for the HS-DPCCH channel quality lower, and allocate a higher channel quality for the HS-DPCCH channel. Lower power values, but not limited to this. For example, when the radio network controller configures the power information according to the location information of the user equipment, the location of the user equipment may be closer to the location of the center of the cell, and the HS-DPCCH used by the user equipment in the cell is allocated. The power value of the channel is small, otherwise a larger power value can be allocated, but is not limited to this.

102. The radio network controller sends the at least two sets of HS-DPCCH channel configuration information to a user equipment under the base station controlled by the radio network controller.

The at least two sets of HS-DPCCH channel configuration information are used to separately configure multiple HS-DPCCH channels, where each set of HS-DPCCH channel configuration information corresponds to one or more HS-DPCCH channels.

In addition, the radio network controller may further send the at least two sets of HS-DPCCH channel configuration information to the base station under control thereof.

The method for configuring a high-speed dedicated physical control channel provided by the embodiment of the present invention, wherein the radio network controller configures at least two sets of HS-DPCCH channel configuration information; and sends the at least two sets of HS-DPCCH channel configuration information to the wireless The user equipment under the base station controlled by the network controller configures multiple HS-DPCCH channels. However, the prior art only configures a set of HS-DPCCH channel configuration information to configure multiple HS-DPCCH channels, so the present invention avoids uniformly configuring the same for multiple HS-DPCCH channels, thereby ensuring the same configuration. Each of the HS-DPCCH channels can meet the demodulation requirement, so that the feedback information sent by the user equipment according to the configuration value can reach the base station, and the maximum power required for multiple HS-DPCCH channels is avoided. Thereby avoiding waste of uplink power resources.

As shown in FIG. 2, a method for configuring a high-speed dedicated physical control channel according to another embodiment of the present invention includes:

201. The radio network controller allocates an HS-DPCCH channel resource. The specific allocation manner may be: the radio network controller configures one HS-DPCCH channel for the user equipment for one base station, for example, if there are multiple cells under one base station, the user equipment may pass the same HS-DPCCH channel. Sending feedback information to multiple cells in the same base station, or the radio network controller configuring one HS-DPCCH channel for the user equipment for one sector, for example, one sector may include multiple cells, The user equipment may send feedback information to multiple cells in the same sector by using the same HS-DPCCH channel, or the radio network controller configures one HS- for the user equipment for a group of cells with the same downlink timing. DPCCH channel, but not limited to this.

202. The radio network controller receives channel related information of the HS-DPCCH channel reported by the base station.

Specifically, the receiving, by the radio network controller, the channel related information may be the HS-DPCCH channel quality reported by the receiving base station or the location information of the user equipment.

The location information of the user equipment may be reported by the user equipment to the base station, and then reported by the base station to the radio network controller.

203. The radio network controller configures the at least two sets of HS-DPCCH channel configuration information according to channel related information of the HS-DPCCH channel.

Specifically, the radio network controller may configure power information of the at least two sets of HS-DPCCH channels according to the HS-DPCCH channel quality or the location information of the user equipment. The channel related information may include the HS-DPCCH channel quality detected by the base station or the location information of the user equipment under the base station. For example, when the radio network controller configures the power information according to the HS-DPCCH channel quality, it may allocate a higher power value for the HS-DPCCH channel quality lower, and allocate a higher channel quality for the HS-DPCCH channel. Lower power values, but not limited to this. For example, when the radio network controller configures the power information according to the location information of the user equipment, the location of the user equipment may be closer to the location of the center of the cell, and the HS-DPCCH used by the user equipment in the cell is allocated. The power value of the channel is small, otherwise a larger power value can be allocated, but is not limited to this.

Specifically, after the power information is sent by the radio network controller to the user equipment, the user The device can calculate the power required for acquiring each HS-DPCCH channel according to the power information, so that the power values are respectively allocated to the multiple HS-DPCCH channels, and the user equipment can calculate and acquire multiple HS-DPCCH channels. Power value. Or the user equipment calculates a first power value of one of the HS-DPCCH channels of the plurality of HS-DPCCH channels, and calculates, by using the first power value, the acquired multiple HS-DPCCH channels. The deviation of the remaining HS-DPCCH channels from the first power value, and further acquiring the power values of the respective HS-DPCCH channels according to the deviation.

In addition, the radio network controller configures at least two sets of timing information such that uplink timings of the plurality of HS-DPCCH channels are different.

Specifically, when the radio network controller configures the timing of the multiple HS-DPCCH channels, the uplink timing of each HS-DPCCH channel may be set to be the same, or the uplink timing of each HS-DPCCH channel may be set to be different, or It is set that the uplink timings of some HS-DPCCH channels in multiple HS-DPCCH channels are the same, and the rest are set to different uplink timings. It should be noted that, the radio network controller configures different uplink timings of the multiple HS-DPCCH channels to ensure the independence of each HS-DPCCH channel, and each HS-DPCCH channel sends uplink data. Will not be affected by other HS-DPCCH channels.

In addition, the foregoing step 203 may further configure other configuration information, for example, information such as a period, a frequency, and a repetition number of uplink data transmitted through each HS-DPCCH channel, but is not limited thereto.

204. The radio network controller sends the at least two sets of HS-DPCCH channel configuration information to a user equipment under the base station controlled by the radio network controller.

205. The user equipment sends feedback information to the base station according to the configuration information. The feedback information may include: Acknowledgement (ACK) / Non-Acknowledgement (NACK) / No Transmission (DTX), and channel quality indicator ( Channe 1 Qua 1 I ty Indicator, abbreviated as CQI) Information and information such as precoding matrix in MIMO technology, but not limited to this.

A method for configuring a high-speed dedicated physical control channel according to another embodiment of the present invention, wherein the radio network controller configures at least two sets of HS-DPCCH channel configuration information; and sends the at least two sets of HS-DPCCH channel configuration information to the The user equipment under the base station controlled by the radio network controller is configured to configure a plurality of HS-DPCCH channels. However, the prior art only configures a set of HS-DPCCH channel configuration information to configure multiple HS-DPCCH channels, so the present invention avoids uniformly configuring the same for multiple HS-DPCCH channels, thereby ensuring the same configuration. Each of the HS-DPCCH channels can meet the demodulation requirement, so that the feedback information sent by the user equipment according to the configuration value can reach the base station, and the configuration according to the maximum power required by multiple HS-DPCCH channels is avoided. Thereby avoiding waste of uplink power resources.

As shown in FIG. 3, the radio network controller provided by the embodiment of the present invention includes:

The configuration unit 31 is configured to configure at least two sets of HS-DPCCH channel configuration information. For the specific implementation, refer to step 101 in Figure 1, and details are not described here.

The sending unit 32 is configured to send at least two sets of HS-DPCCH channel configuration information configured by the configuration unit 31 to a user equipment under the base station controlled by the radio network controller. For the specific implementation, refer to step 102 in Figure 1, and details are not described here.

The at least two sets of HS-DPCCH channel configuration information are used to separately configure multiple HS-DPCCH channels, where each set of HS-DPCCH channel configuration information corresponds to one or Multiple HS-DPCCH channels.

Further, as shown in FIG. 4, the configuration unit 31 is specifically configured to:

And configuring the at least two sets of H S -DP C C H channel configuration information according to channel related information of the H S -DP C C H channel. For the specific implementation, refer to step 203 in Figure 2, and details are not described herein.

The radio network controller further includes:

The receiving unit 33 is configured to receive the HS-DPCCH channel quality reported by the base station or the location information of the user equipment. For details, refer to step 202 in Figure 2, and details are not described here.

Further, as shown in FIG. 4, the configuration information includes power information, and the configuration unit 31 is specifically configured to:

At least two sets of power information are configured to allocate power to the plurality of HS-DPCCH channels. For the specific implementation, refer to step 203 in Figure 2, and details are not described herein.

Further, as shown in FIG. 4, the configuration information includes timing information, and the configuration unit 31 is specifically configured to:

At least two sets of timing information are configured such that uplink timings of the plurality of HS-DPCCH channels are different. For the specific implementation, refer to step 203 in Figure 2, and details are not described herein.

Further, as shown in FIG. 4, the configuration unit 31 is further configured to:

An HS-DPCCH channel is configured for the user equipment for one base station.

Or configuring one HS-DPCCH channel for the user equipment for one sector.

Or configuring a HS-DPCCH channel for the user equipment for a group of cells with the same downlink timing. For the specific implementation, refer to step 201 in Figure 2, and details are not described here.

The radio network controller provided by the present invention, the radio network controller is configured with at least two sets of HS-DPCCH channel configuration information; and transmitting the at least two sets of HS-DPCCH channel configuration information to the radio network controller User equipment under the base station, to multiple HS-DPCCH The channel is configured. However, the prior art only configures a set of HS-DPCCH channel configuration information to configure multiple HS-DPCCH channels, so the present invention avoids uniformly configuring the same for multiple HS-DPCCH channels, thereby ensuring the same configuration. Each of the HS-DPCCH channels can meet the demodulation requirement, so that the feedback information sent by the user equipment according to the configuration value can reach the base station, and the maximum power required for multiple HS-DPCCH channels is avoided. Thereby avoiding waste of uplink power resources.

As shown in FIG. 5, a radio network controller according to another embodiment of the present invention includes: a processor 41, configured to configure at least two sets of HS-DPCCH channel configuration information. For the specific implementation, refer to step 1 01 in Figure 1, and no further details are provided here.

The transmitter 42 is configured to send at least two sets of HS-DPCCH channel configuration information configured by the processor to a user equipment under the base station controlled by the radio network controller. For the specific implementation, refer to step 1 02 in Figure 1, and details are not described here.

Further, as shown in FIG. 6, the processor 42 is specifically configured to:

The radio network controller further includes:

The receiver 43 is configured to receive the HS-DPCCH channel quality reported by the base station or location information of the user equipment. For details, refer to step 202 in Figure 2, and details are not described here.

Further, as shown in FIG. 6, the configuration information includes power information, and the processor 41 is specifically configured to:

At least two sets of power information are configured to separately allocate power for the plurality of HS-DPCCH channels. For the specific implementation, refer to step 203 in Figure 2, and details are not described herein. Further, as shown in FIG. 6, the configuration information includes timing information, and the processor 41 is specifically configured to:

Further, as shown in FIG. 6, the processor 41 is further configured to:

An HS-DPCCH channel is configured for the user equipment for one base station.

Or configuring one HS-DPCCH channel for the user equipment for one sector.

The radio network controller provided by the present invention, the radio network controller is configured with at least two sets of HS-DPCCH channel configuration information; and the at least two sets of HS-DPCCH channel configuration information are sent to the radio network controller for controlling User equipment under the base station to configure multiple HS-DPCCH channels. However, the prior art only configures a set of HS-DPCCH channel configuration information to configure multiple HS-DPCCH channels, so the present invention avoids uniformly configuring the same for multiple HS-DPCCH channels, thereby ensuring the same configuration. Each of the HS-DPCCH channels can meet the demodulation requirement, so that the feedback information sent by the user equipment according to the configuration value can reach the base station, and the maximum power required for multiple HS-DPCCH channels is avoided. Thereby avoiding waste of uplink power resources.

Through the description of the above embodiments, those skilled in the art can clearly understand that the present invention can be implemented by means of software plus necessary general hardware, and of course, by hardware, but in many cases, the former is a better implementation. . Based on such understanding, the technical solution of the present invention, which is essential or contributes to the prior art, may be embodied in the form of a software product stored in a readable storage medium, such as a floppy disk of a computer. A hard disk or optical disk or the like includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform the methods described in various embodiments of the present invention.

The above description is only a specific embodiment of the present invention, but the scope of protection of the present invention is not It is to be understood that those skilled in the art are susceptible to variations and substitutions within the scope of the present invention. Therefore, the scope of the invention should be determined by the scope of the claims.

Claims

claims

1. A configuration method for high-speed dedicated physical control channel HS-DPCCH, which is characterized by including:

The radio network controller sends the at least two sets of HS-DPCCH channel configuration information to the user equipment under the base station controlled by the radio network controller;

The at least two sets of HS-DPCCH channel configuration information are used to configure multiple HS-DPCCH channels respectively, where each set of HS-DPCCH channel configuration information corresponds to one or more HS-DPCCH channels.

2. The method according to claim 1, characterized in that the radio network controller configures at least two sets of HS-DPCCH channel configuration information, including:

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

3. The method according to claim 2, characterized in that, the channel related information includes the HS-DPCCH channel quality detected by the base station, or the location information of user equipment under the base station, in the wireless network Before the controller configures the at least two sets of HS-DPCCH channel configuration information according to the channel related information of the HS-DPCCH channel, it includes:

4. The method according to claim 1, wherein the configuration information includes power information, and the radio network controller configures at least two sets of HS-DPCCH channel configuration information, including: the radio network controller configures at least Two sets of power information are used to allocate power to the multiple HS-DPCCH channels respectively.

5. The method according to claim 1, wherein the configuration information includes timing information, the radio network controller configures at least two sets of HS-DPCCH channel configuration information, and further includes: the radio network controller configuration At least two sets of timing information, so that the uplink timing of the multiple HS-DPCCH channels is different.

6. The method according to claim 1, wherein the configuring multiple HS-DPCCH channels includes:

The radio network controller configures an HS-DPCCH channel for the user equipment for a base station;

Or the radio network controller configures an HS-DPCCH channel for the user equipment for one sector;

Or the radio network controller configures an HS-DPCCH channel for the user equipment for a group of cells with the same downlink timing.

7. A wireless network controller, characterized by including:

Configuration unit, used to configure at least two sets of HS-DPCCH channel configuration information;

A sending unit, configured to send at least two sets of HS-DPCCH channel configuration information configured by the configuration unit to user equipment under the base station controlled by the radio network controller;

8. The wireless network controller according to claim 7, characterized in that the configuration unit is specifically used for:

Configure the at least two sets of HS-DPCCH channel configuration information according to the channel related information of the HS-DPCCH channel.

9. The radio network controller according to claim 8, wherein the channel related information includes the HS-DPCCH channel quality detected by the base station, or the location information of user equipment under the base station, Wireless network controller, also includes:

A receiving unit, configured to receive the HS-DPCCH channel quality reported by the base station or the location information of the user equipment.

10. The wireless network controller according to claim 7, wherein the configuration information includes power information, and the configuration unit is specifically used for:

Configure at least two sets of power information to allocate power to the multiple HS-DPCCH channels respectively.

11. The wireless network controller according to claim 7, wherein the configuration information includes timing information, and the configuration unit is specifically used for:

Configure at least two sets of timing information so that the uplink timing of the multiple HS-DPCCH channels is different.

12. The wireless network controller according to claim 7, characterized in that the configuration unit is also used to:

Configuring an HS-DPCCH channel for the user equipment for one base station;

Or configure an HS-DPCCH channel for the user equipment for one sector;

Or configure an HS-DPCCH channel for the user equipment for a group of cells with the same downlink timing.

1 3. A wireless network controller, characterized by including:

Processor, used to configure at least two sets of HS-DPCCH channel configuration information;

A transmitter, configured to send at least two sets of HS-DPCCH channel configuration information configured by the processor to user equipment under the base station controlled by the radio network controller;

14. The wireless network controller according to claim 13, characterized in that the processor is specifically used for:

15. The radio network controller according to claim 14, wherein the channel related information includes the HS-DPCCH channel quality detected by the base station, or the location information of user equipment under the base station, Wireless network controller, also includes:

A receiver, configured to receive the HS-DPCCH channel quality reported by the base station or the location information of the user equipment.

16. The wireless network controller according to claim 13, characterized in that, the configuration The information includes power information, and the processor is specifically used for:

17. The wireless network controller according to claim 13, wherein the configuration information includes timing information, and the processor is specifically used to:

18. The wireless network controller according to claim 13, characterized in that the processor is also used for:

Configuring an HS-DPCCH channel for the user equipment for one base station;

Or configure an HS-DPCCH channel for the user equipment for one sector;

Or configure a channel for the user equipment for a group of cells with the same downlink timing.

HS-DPCCH channel.