CN104349477A - Dispatching method and device - Google Patents

Abstract

The embodiment of the invention provides a dispatching method and device. The dispatching method provided by the invention comprises the following steps: user equipment receives a plurality of E-AGCHs (Enhanced-Absolute Grant Channel) sent by a network side; when the user equipment determines that a first E-AGCH in the plurality of E-AGCHs bears first AG (Absolute Grant) information of the user equipment, the user equipment transmits upstream data according to the first AG information, wherein the first AG information indicates a non-zero digital authorized value or a digital authorized value; when the user equipment determines that the first E-AGCH bears second AG information of other user equipment except the user equipment, the user equipment stops transmitting the upstream data. Therefore, the plurality of sets of user equipment can be dispatched.

Description

Dispatching method and device

Technical field

The embodiment of the present invention relates to the communication technology, particularly relates to a kind of dispatching method and device.

Background technology

Wideband Code Division Multiple Access (WCDMA) (Wideband Code Division Multiple Access, be called for short: WCDMA) be a kind of wide band direct sequence spread spectrum code division multiple access system, in a wcdma system, scrambler and spread spectrum is used to carry out code division multiplexing, but because wireless channel exists multipath effect, therefore (User Equipment, is called for short: transmitting uplink data UE) can cause uplink interference subscriber equipment, in order to ensure the demodulation performance of base station, needing base station to regulate and limiting the transmitting power of each UE.

In a wcdma system, (Scheduling Grant is called for short: SG) dispatch UE uplink transmission power usually to issue scheduling grants by base station.Scheduling grants is divided into absolute grant (Absolute Grant, AG) and relative authorization (Relative Grant) be called for short:, AG is by strengthening dedicated channel (Enhanced Dedicated Channel, be called for short: E-DCH) (E-DCH Absolute Grant Channel is called for short: E-AGCH) carry absolute grant channel.

In prior art, base station, when dispatching UE, needs the first previous UE transmission to this UE to terminate to authorize AG value, then sends unlatching mandate AG value to this UE, start to carry out transmitting uplink data to make this UE.But the method will send two AG values to dispatch the transfer of data of single UE, waste Internet resources.For new high interference lifting (Rise over Thermal, be called for short: RoT) special auxiliary carrier wave, there is company to propose new scheduling rule: all UE detect the AG information on E-AGCH, if UE finds to have issued AG value and is oneself, then send according to AG value; Send the AG information on the UE detection E-AGCH of data, if UE finds to have issued AG value but is not oneself, then stop the transmission of data.But this scheduling rule can only dispatch unique user at synchronization.

Summary of the invention

The embodiment of the present invention provides a kind of dispatching method and device, to realize dispatching multiple user at synchronization.

First aspect, the embodiment of the present invention provides a kind of dispatching method, comprising: subscriber equipment receives multiple E-AGCH that network side sends; When the E-AGCH channel that described subscriber equipment is determined in described multiple E-AGCH channel carries the first absolute grant (AG) information of described subscriber equipment, described subscriber equipment carries out transmitting uplink data according to a described AG information; Wherein, a described AG information indicates nonzero digit authorization value, or, authorization value.

In the first possible implementation of first aspect, described method also comprises:

When described subscriber equipment is determined to carry the 2nd AG information of other subscriber equipmenies except described subscriber equipment on a described E-AGCH channel, described subscriber equipment stops transmitting uplink data.

In the implementation that the second of first aspect is possible, when described subscriber equipment is determined to carry the 3rd AG information of described subscriber equipment on other E-AGCH channels except a described E-AGCH channel, described subscriber equipment carries out transmitting uplink data according to described 3rd AG information; Or when described subscriber equipment is determined not carry the absolute grant AG information of described subscriber equipment on other E-AGCH channels except a described E-AGCH channel, described subscriber equipment maintains current transmitting uplink data.

Based on the first possible execution mode of first aspect, in a kind of possible execution mode, described method also comprises: other E-AGCH channels except a described E-AGCH channel do not affect the current transmitting uplink data of described subscriber equipment.

The implementation possible according to the second of first aspect, in the implementation that the third is possible, described subscriber equipment also comprises before detecting respectively on described multiple E-AGCH channel:

Described subscriber equipment receives the first configuration information that described network side issues, and described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel.

The implementation possible according to the second of first aspect, in the 4th kind of possible implementation, before the E-AGCH channel that described subscriber equipment is corresponding with described subscriber equipment in described multiple E-AGCH channel detects, also comprises:

Described subscriber equipment receives the second configuration information that described network side issues, and described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

According to the 4th kind of possible implementation of first aspect, in the 5th kind of possible implementation, described method also comprises:

Described subscriber equipment receives the channel switching command that described network side sends, and described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting.

Second aspect, this aspect embodiment provides a kind of dispatching method, comprising:

Determine the multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH channels transmitting absolute grant (AG) information;

AG information described in described multiple E-AGCH channel, to make the E-AGCH channel of subscriber equipment in described multiple E-AGCH channel is determined to carry an AG information.

In the first possible implementation of second aspect, described base station, before information described in described multiple E-AGCH channel, also comprises:

Issue the first configuration information to described subscriber equipment, described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel; Or,

Issue the second configuration information to described subscriber equipment, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

According to the first possible implementation of second aspect, in the implementation that the second is possible, described method also comprises:

To described subscriber equipment transmitting channel switching command, described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting.

The third aspect, this aspect embodiment provides a kind of dispatching method, comprising: subscriber equipment receives the enhancing dedicated channel absolute grant channel (E-AGCH) that network side sends; When described subscriber equipment is in multiple Transmission Time Interval TTI of correspondence, when determining the first absolute grant (AG) information carrying described subscriber equipment on described E-AGCH channel, described subscriber equipment carries out transmitting uplink data according to a described AG information, wherein, a described AG information indicates nonzero digit authorization value, or, authorization value.

In the first possible implementation of the third aspect, described method also comprises: when described subscriber equipment is within described multiple TTI, when determining the 2nd AG information carrying other subscriber equipmenies except described subscriber equipment on described E-AGCH channel, described subscriber equipment stops transmitting uplink data.

In the implementation that the second of the third aspect is possible, described on E-AGCH channel, determine to carry an AG information before, also comprise: when described subscriber equipment is outside described multiple TTI, determine that described subscriber equipment carries out transmitting uplink data according to described 3rd AG information when carrying the 3rd AG information of described subscriber equipment on described E-AGCH E-AGCH channel; Or when described subscriber equipment is outside described multiple TTI, determine that described subscriber equipment maintains current transmitting uplink data when not carrying the absolute grant AG information of described subscriber equipment on described E-AGCH channel.

Based on the first possible execution mode of the third aspect, in a kind of possible execution mode, described method also comprises: outside described multiple TTI, and described E-AGCH channel does not affect the current transmitting uplink data of described subscriber equipment.

The implementation possible according to the second of the third aspect, in the implementation that the third is possible, described subscriber equipment carries out transmitting uplink data according to a described AG information, is specially:

Described subscriber equipment carries out transmitting uplink data on the activation TTI of described E-AGCH channel.

In conjunction with the third aspect to the third possible implementation of the third aspect, in the 4th kind of possible implementation, described subscriber equipment, in multiple TTI of correspondence, before E-AGCH channel being determined carry an AG information, also comprises:

Described subscriber equipment receives the configuration information that described network side issues, and described configuration information is used to indicate described subscriber equipment on described E-AGCH channel, detects multiple TTI corresponding to AG information.

According to the 4th kind of possible implementation of the third aspect, in the 5th kind of possible implementation, the grouping information of described configuration information specifically for indicating described subscriber equipment to detect the described multiple TTI corresponding to AG information on described E-AGCH channel.

In conjunction with the 4th kind or the 5th kind of possible implementation of the third aspect, in the 6th kind of possible implementation, described method also comprises:

Described subscriber equipment receives the grouping switching command that described network side sends, and described grouping switching command is used to indicate described subscriber equipment and in pre-configured multiple TTI groups, switches described subscriber equipment detect described multiple TTI corresponding to AG information.

Fourth aspect, this aspect embodiment provides a kind of dispatching method, comprising:

Determine multiple Transmission Time Interval TTI of the enhancing dedicated channel E-DCH absolute grant channel E-AGCH channel that subscriber equipment is corresponding;

The multiple TTIs corresponding according to determined described subscriber equipment, in E-AGCH channel the one AG information.

In the first possible implementation of fourth aspect, after determining multiple TTI of the E-AGCH channel that subscriber equipment is corresponding, also comprise:

Issue configuration information to described subscriber equipment, described configuration information is used to indicate described subscriber equipment on described E-AGCH channel, detects multiple TTI corresponding to AG information.

According to the first possible implementation of fourth aspect, in the implementation that the second is possible, described configuration information detects TTI grouping information corresponding to AG information specifically for indicating described subscriber equipment on described E-AGCH channel.

In conjunction with the implementation that the first or the second of fourth aspect are possible, in the implementation that the third is possible, described method also comprises:

Send grouping switching command to described subscriber equipment, described grouping switching command is used to indicate described subscriber equipment and in pre-configured multiple TTI groups, switches described subscriber equipment detect described multiple TTI corresponding to AG information.

5th aspect, the embodiment of the present invention provides a kind of subscriber equipment, comprising: receiver module, for receiving multiple E-AGCH that network side sends; Detection module, the AG information for the multiple E-AGCH channel bearings received described receiver module detects; Processing module, during for determining when described detection module the E-AGCH channel in described multiple E-AGCH carries an AG information of described subscriber equipment, carries out transmitting uplink data according to a described AG information.

In the first possible implementation in the 5th, described processing module also for: when described detection module is determined to carry the 2nd AG information of other subscriber equipmenies except described subscriber equipment on a described E-AGCH channel, then stop transmitting uplink data.

In the implementation that the second in the 5th is possible, when described processing module is also for determining when described detection module to carry the 3rd AG information of described subscriber equipment on other E-AGCH channels except a described E-AGCH channel, carry out transmitting uplink data according to described 3rd AG information; Or when described detection module is determined not carry the AG information of described subscriber equipment on other E-AGCH channels except a described E-AGCH channel, maintain transmitting uplink data.

The implementation possible according to the second of the 5th aspect, in the implementation that the third is possible, described subscriber equipment also comprises: configuration module; Described configuration module, for receiving the first configuration information that network side issues, described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel; Or the second configuration information that described configuration module issues for receiving described network side, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

According to the 4th kind of possible implementation of the 5th aspect, in the 5th kind of possible implementation, described configuration module also for: receive the channel switching command that described network side sends, described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting.

6th aspect, this aspect embodiment provides a kind of network equipment, comprising: base station; Described base station comprises: channel determination module and sending module; Channel determination module, for determining multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH channels of transmission information;

Sending module, in described multiple E-AGCH channel information, to make the E-AGCH channel of subscriber equipment in described multiple E-AGCH channel is determined to carry an AG information.

In the first possible implementation in the 6th, described network equipment also comprises: radio network controller; Described radio network controller is used for:

Issue the first configuration information to described subscriber equipment, described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel; Or,

Issue the second configuration information to described subscriber equipment, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

According to the first possible implementation of the 6th aspect, in the implementation that the second is possible, described sending module also for:

To described subscriber equipment transmitting channel switching command, described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting.

7th aspect, this aspect embodiment provides a kind of subscriber equipment, comprising: receiver module, and one that sends for receiving network side strengthens dedicated channel absolute grant channel E-AGCH; Detection module, the absolute grant AG information for the E-AGCH channel bearing received described receiver module detects; Processing module, for working as described detection module in multiple Transmission Time Interval TTI of correspondence, when determining the AG information carrying described subscriber equipment on described E-AGCH channel, transmitting uplink data is carried out according to a described AG information, wherein, a described AG information indicates nonzero digit authorization value, or, authorization value.

In the first possible implementation in the 7th, described processing module is also for working as described detection module within described multiple TTI, when determining the 2nd AG information carrying other subscriber equipmenies except described subscriber equipment on described E-AGCH channel, stop transmitting uplink data.

In the implementation that the second in the 7th is possible, described detection module, in multiple TTI of described correspondence, described E-AGCH channel detects a described AG information; Or,

In other TTI in multiple TTI of described correspondence and except multiple TTI of described correspondence, described E-AGCH channel detects a described AG information.

The implementation possible according to the second of the 7th aspect, in the implementation that the third is possible, described processing module specifically for:

The activation TTI of described E-AGCH channel carries out transmitting uplink data.

In conjunction with the third possible implementation of the 7th aspect to the 7th aspect, in the 4th kind of possible implementation, described subscriber equipment also comprises:

Configuration module, for receiving the configuration information that network side issues, described configuration information is used to indicate described subscriber equipment on described E-AGCH channel, detects multiple TTI corresponding to AG information.

According to the 4th kind of possible implementation of the 7th aspect, in the 5th kind of possible implementation, the grouping information of described configuration information specifically for indicating described subscriber equipment to detect the described multiple TTI corresponding to AG information on described E-AGCH channel.

In conjunction with the 4th kind or the 5th kind of possible implementation of the 7th aspect, in the 6th kind of possible implementation, described configuration module also for:

Receive the grouping switching command that described network side sends, described grouping switching command is used to indicate described subscriber equipment and in pre-configured multiple TTI groups, switches described subscriber equipment detect described multiple TTI corresponding to AG information.

Eighth aspect, this aspect embodiment provides a kind of network equipment, comprising: base station; Described base station comprises:

Determination module, for determining multiple Transmission Time Interval TTI of the enhancing dedicated channel E-DCH absolute grant channel E-AGCH channel that subscriber equipment is corresponding;

Sending module, for the multiple TTIs corresponding according to determined described subscriber equipment, in E-AGCH channel the one AG information.

In the first possible implementation of eighth aspect, described network equipment also comprises: radio network controller; Described radio network controller is used for issuing configuration information to described subscriber equipment, and described configuration information is used to indicate described subscriber equipment on described E-AGCH channel, detects multiple TTI corresponding to AG information.

According to the first possible implementation of eighth aspect, in the implementation that the second is possible, described configuration information detects TTI grouping information corresponding to AG information specifically for indicating described subscriber equipment on described E-AGCH channel.

In conjunction with the implementation that the first or the second of eighth aspect are possible, in the implementation that the third is possible, described sending module also for:

Send grouping switching command to described subscriber equipment, described grouping switching command is used to indicate described subscriber equipment and in pre-configured multiple TTI groups, switches described subscriber equipment detect described multiple TTI corresponding to AG information.

9th aspect, this aspect embodiment provides a kind of dispatching method, comprising: network side is the pre-configured multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH channel of subscriber equipment; Described network side indicates described subscriber equipment to switch current E-AGCH channel, and described current E-AGCH channel is that described subscriber equipment obtains an E-AGCH channel of absolute grant AG information from described multiple E-AGCH channel.

Tenth aspect, this aspect embodiment provides a kind of communication network, comprising: radio network controller, for being the pre-configured multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH channel of subscriber equipment; Base station, is used to indicate described subscriber equipment and switches current E-AGCH channel, and described current E-AGCH channel is that described subscriber equipment obtains an E-AGCH channel of absolute grant AG information from described multiple E-AGCH channel.

The dispatching method that the embodiment of the present invention provides and device, by the E-AGCH channel of subscriber equipment in multiple E-AGCH channel is determined to carry an AG information; Described subscriber equipment carries out decoding to a described AG information, if successfully decoded, then described subscriber equipment obtains an AG information according to the decode results of a described AG information, and carries out transmitting uplink data according to a described AG information; Described subscriber equipment detects on a described E-AGCH channel; If described subscriber equipment is determined to carry the 2nd AG information on a described E-AGCH channel, and described subscriber equipment is to described 2nd AG information decoding failure, then described subscriber equipment stops transmitting uplink data, thus realizes dispatching multiple subscriber equipment at synchronization.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the flow chart of dispatching method embodiment one of the present invention;

Fig. 2 is the flow chart of dispatching method embodiment two of the present invention;

Fig. 3 is the flow chart of dispatching method embodiment three of the present invention;

Fig. 4 is the flow chart of dispatching method embodiment four of the present invention;

Fig. 5 is the flow chart of dispatching method embodiment five of the present invention;

Fig. 6 is the flow chart of dispatching method embodiment six of the present invention;

Fig. 7 is the flow chart of dispatching method embodiment seven of the present invention;

Fig. 8 is the structural representation of subscriber equipment embodiment one of the present invention;

Fig. 9 is the structural representation of network equipment embodiment one of the present invention;

Figure 10 is the structural representation of subscriber equipment embodiment two of the present invention;

Figure 11 is the structural representation of network equipment embodiment two of the present invention;

Figure 12 is the flow chart of dispatching method embodiment eight of the present invention;

The composition schematic diagram of a kind of communication network that Figure 13 provides for the embodiment of the present invention.

Embodiment

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Fig. 1 is the flow chart of dispatching method embodiment one of the present invention.As shown in Figure 1, the method that the present embodiment provides specifically can be performed by subscriber equipment, and the method for the present embodiment specifically can comprise:

Step 101, subscriber equipment receives multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH that network side sends, it should be noted that the network side in the present invention is network equipment, should know, in the 3G networks such as UMTS, the land radio access web of network side comprises two parts, namely network equipment comprises: base station and corresponding radio network controller (radio network controller, RNC), wherein, base station is interconnected by the Iub interface of standard and RNC, base station is as radio receiving-transmitting unit, mainly complete the process of Uu interface physical layer protocol, its function comprises spread spectrum, modulation, chnnel coding and despreading, demodulated channel is decoded, and baseband signal and radiofrequency signal are changed mutually, RNC then mainly completes connection establishment and disconnection, switch, grand diversity merges, RRM control etc., specifically can with reference to prior art.

In actual application, can be the multiple E-AGCH channel of each subscriber equipment configured in advance by the base station of network side; Or on multiple code channels of network side, configuring E-AGCH channel in advance, subscriber equipment, according to information such as the spreading codes of each E-AGCH channel, receives corresponding E-AGCH channel, specifically with reference to prior art, no longer can describe in detail here.Wherein, it can be identical for configuring to described multiple E-AGCH channels of multiple subscriber equipment, and also can be different, the present embodiment limit this.

Step 102, when the E-AGCH channel that subscriber equipment is determined in multiple E-AGCH channel carries the first absolute grant (AG) information of this subscriber equipment, described subscriber equipment carries out transmitting uplink data according to a described AG information, wherein, an AG information specifically can indicate nonzero digit authorization value or authorization value.

Should know, E-AGCH is the one of five kinds of enhancement type special channels (E-DCH), the E-DPDCH absolute power size that it provides a subscriber equipment (UE) to adopt, provide relative to the power ratio form of DPCCH with E-DPDCH, namely E-AGCH tells how a UE adjusts its through-put power standard, particular content please refer to prior art, here no longer describe in detail, in the present embodiment, only have when an AG information be nonzero digit authorization value or authorization value time, subscriber equipment just can start transfer of data, and when an AG information is other authorization value, as deexcitation authorization value, subscriber equipment is then stop transfer of data.

In a kind of feasible execution mode, described subscriber equipment can detect respectively on described multiple E-AGCH channel, and any one E-AGCH channel in described multiple E-AGCH channel obtains a described AG information; In another kind of feasible execution mode, described subscriber equipment can an E-AGCH channel corresponding with described subscriber equipment in described multiple E-AGCH channel detect, and determines to carry a described AG information on the E-AGCH channel that described subscriber equipment is corresponding.The present embodiment does not limit this.

It should be noted that, in the present embodiment, described subscriber equipment can also comprise before detecting respectively on described multiple E-AGCH channel:

Described subscriber equipment receives the first configuration information that described network side issues, described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel, wherein, the first configuration information specifically can be issued by high-level signaling by the RNC of described network side.

In the present embodiment, before the E-AGCH channel that described subscriber equipment is corresponding with described subscriber equipment in described multiple E-AGCH channel detects, can also comprise:

Described subscriber equipment receives the second configuration information that described network side issues, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected, wherein, the second configuration information also can be issued by high-level signaling by the RNC of described network side.

Further, can also comprise:

Described subscriber equipment receives the channel switching command that described network side sends, described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting, wherein, specifically described channel switching command can be received by the base station of network side.It should be noted that, network side is when transmission the one AG information, can with identification information (such as: the identity ID identification code etc. of 16) corresponding to this subscriber equipment, one AG information is added and covers rear re-encoding, the AG information of described subscriber equipment to carrying on E-AGCH carries out decoding, if successfully decoded (such as: utilize this subscriber equipment identification information detect and correct decoding, the AG information that this AG information is the correspondence of this subscriber equipment can be identified), then described subscriber equipment obtains an AG information according to the decode results of a described AG information, and carry out transmitting uplink data according to a described AG information.

It should be noted that, if described subscriber equipment is to a described AG information decoding success, then illustrate that a described AG information sends to described subscriber equipment, then described subscriber equipment can obtain an AG information according to the decode results of a described AG information and carry out transmitting uplink data according to a described AG information.

Further, in the present embodiment, also comprise:

Step 103, when described subscriber equipment is determined to carry the 2nd AG information of other subscriber equipmenies except described subscriber equipment on a described E-AGCH channel, described subscriber equipment stops transmitting uplink data.

Particularly, if described subscriber equipment is determined to carry the 2nd AG information at a described E-AGCH channel, and described subscriber equipment is to described 2nd AG information decoding failure, described subscriber equipment stops transmitting uplink data, wherein, time failed to the AG information decoding of carrying on an E-AGCH, can think that this AG information issues the 2nd AG information of other subscriber equipmenies, particularly, two kinds at least can be had to determine, and whether an E-AGCH carries the implementation of the AG information of other users: 1, first determine whether an E-AGCH carries AG information (such as doing thresholding to judge by signal to noise ratio), if there is AG information, again to its decoding, successfully decoded is exactly subscriber equipment oneself, decoding failure is exactly other subscriber equipmenies, 2, first to the direct decoding of an E-AGCH, successfully decoded is exactly subscriber equipment oneself, decoding failure may be then the AG information having other subscriber equipmenies, or AG information may be there is no by an E-AGCH, now do thresholding by signal to noise ratio again and go judge to have on earth the AG information of other subscriber equipmenies or do not carry AG information.

It should be noted that, to described 2nd AG information decoding, described subscriber equipment unsuccessfully illustrates that described 2nd AG information sends to other subscriber equipmenies, the AG information of what described 2nd AG information was carried is other subscriber equipmenies.

In step 103, alternatively, described subscriber equipment is to the information decoding determining to carry and with oneself E-DCH Radio Network Temporary Identifier (E-DCH Radio Network Temporary Identifier, be called for short: after E-RNTI) detecting, just can know whether described information issues oneself, 2nd AG information of other subscriber equipmenies described in this step refers to that described subscriber equipment carries out decoding to the 2nd AG information and after detecting with the E-RNTI of oneself, find that described 2nd AG information does not issue oneself, then described subscriber equipment stops transmitting uplink data, the subscriber equipment corresponding with described 2nd AG information determine to carry described 2nd AG information and successfully decoded after, can start to carry out transmitting uplink data according to described 2nd AG information.

It will be appreciated by those skilled in the art that, if described subscriber equipment is at other E-AGCH channels except a described E-AGCH channel, determine to carry the 2nd AG information, and described subscriber equipment is to described 2nd AG information decoding failure, described subscriber equipment does not stop transmitting uplink data.

In a kind of possible execution mode of the present embodiment, further, after step 102 or step 103, can also comprise:

Step 104, when described subscriber equipment is determined to carry the 3rd AG information of described subscriber equipment on other E-AGCH channels except a described E-AGCH channel, described subscriber equipment carries out transmitting uplink data according to described 3rd AG information; Or

When described subscriber equipment is determined not carry the absolute grant AG information of described subscriber equipment on other E-AGCH channels except a described E-AGCH channel, described subscriber equipment maintains current transmitting uplink data.

It should be noted that, in the another kind of possible execution mode of the present embodiment, in step 102 or step 103, separate between multiple E-AGCH channel, other E-AGCH channels except a described E-AGCH channel do not affect the current transmitting uplink data of described subscriber equipment, that is, any authorization message of carrying on other E-AGCH, or other E-AGCH do not carry AG information, all not current to subscriber equipment transmitting uplink data impacts, and the state that this subscriber equipment maintains current transmitting uplink data is constant.

In this case separate between multiple E-AGCH channel, alternatively, if subscriber equipment to receive on an E-AGCH channel AG information of oneself and opens after number passes, described subscriber equipment only needs on an E-AGCH channel, carry out the detection of AG information, and do not need to detect the AG information whether other E-AGCH channels having and issues described subscriber equipment, to avoid wasting resource.

The dispatching method that the present embodiment provides, by the E-AGCH channel of subscriber equipment in multiple E-AGCH channel is determined to carry an AG information; Described subscriber equipment carries out decoding to a described AG information, if successfully decoded, then described subscriber equipment obtains an AG information according to the decode results of a described AG information, and carries out transmitting uplink data according to a described AG information; Described subscriber equipment detects on a described E-AGCH channel; If described subscriber equipment is determined to carry the 2nd AG information on a described E-AGCH channel, and described subscriber equipment is to described 2nd AG information decoding failure, then described subscriber equipment stops transmitting uplink data, thus realizes dispatching multiple subscriber equipment at synchronization.

Fig. 2 is the flow chart of dispatching method embodiment two of the present invention.As shown in Figure 2, the method that the present embodiment provides specifically can be performed by subscriber equipment, the present embodiment passes through to be the multiple E-AGCH channel of each user device configuration in advance, subscriber equipment is made to detect to multiple E-AGCH channel the scheduling realized multiple subscriber equipment respectively, on the basis of above-described embodiment, specifically can comprise in the method for the present embodiment:

The first configuration information that the RNC that step 201, described subscriber equipment receive network side issues, described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel.

In this step, described subscriber equipment, after receiving the first configuration information that described RNC issues, needs to detect multiple E-AGCH channel, to determine whether described multiple E-AGCH channel carries the AG information sending to described subscriber equipment simultaneously.

Step 202, described subscriber equipment detect respectively on described multiple E-AGCH channel, and any one E-AGCH channel in described multiple E-AGCH channel is determined to carry a described AG information.

Step 203, described subscriber equipment carry out decoding to a described AG information, if successfully decoded, then described subscriber equipment obtains an AG information according to the decode results of a described AG information, and carries out transmitting uplink data according to a described AG information.

Step 204, described subscriber equipment detect on a described E-AGCH channel.

If the described subscriber equipment of step 205 is determined to carry the 2nd AG information at a described E-AGCH channel, and described subscriber equipment is to described 2nd AG information decoding failure, then described subscriber equipment stops transmitting uplink data.

Be understandable that, described subscriber equipment is only determined to have carried the described 2nd AG information to other subscriber equipmenies on a described E-AGCH channel, described subscriber equipment just can stop transmitting uplink data, otherwise described subscriber equipment can proceed transmitting uplink data.

In concrete implementation procedure, the subscriber equipment not carrying out transmitting uplink data needs to detect multiple E-AGCH channel, if any one the E-AGCH channel in described multiple E-AGCH channel is determined to carry an AG information and successfully decoded, then described subscriber equipment obtains an AG information according to the decode results of a described AG information, and carries out transmitting uplink data according to a described AG information, carrying out the described subscriber equipment of transmitting uplink data, only need to detect a described E-AGCH channel, if determine to carry in network the 2nd AG information sending to other subscriber equipmenies except described subscriber equipment on described E-AGCH channel, then described subscriber equipment stops transmitting uplink data, that is, for the described subscriber equipment carrying out transmitting uplink data, other E-AGCH channels in multiple E-AGCH channel except a described E-AGCH channel can be detected, be understandable that, the described subscriber equipment carrying out transmitting uplink data also can detect other E-AGCH channels in multiple E-AGCH channel except a described E-AGCH channel, the present embodiment does not limit this.

The technical scheme of the present embodiment, the first configuration information that the RNC receiving described network side by described subscriber equipment issues, and detect respectively on described multiple E-AGCH channel according to described first configuration information, any one E-AGCH channel in described multiple E-AGCH channel is determined carry a described AG information and successfully decoded, decode results according to a described AG information obtains an AG information, and carry out transmitting uplink data according to a described AG information, and determine to carry on a described E-AGCH channel send to the 2nd AG information of other subscriber equipmenies after stop transmitting uplink data, thus realize dispatching multiple subscriber equipment at synchronization.

Fig. 3 is the flow chart of dispatching method embodiment three of the present invention.As shown in Figure 3, the method that the present embodiment provides specifically can be performed by subscriber equipment, the present embodiment by configuring E-AGCH channel on multiple code channels of network side, each subscriber equipment is made to detect one of them E-AGCH channel, from network side, can realize dispatching multiple subscriber equipment, on the basis of above-described embodiment, specifically can comprise in the method for the present embodiment:

The second configuration information that the RNC that step 301, described subscriber equipment receive described network side issues, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

In this step, described subscriber equipment, after receiving described second configuration information, only can detect corresponding E-AGCH channel, to determine whether described E-AGCH channel carries the information sending to described subscriber equipment.

The E-AGCH channel that step 302, described subscriber equipment are corresponding with described subscriber equipment in described multiple E-AGCH channel detects, and determines to carry a described AG information on the E-AGCH channel that described subscriber equipment is corresponding.

Step 303, described subscriber equipment carry out decoding to a described AG information, if successfully decoded, then described subscriber equipment obtains an AG information according to the decode results of a described AG information, and carries out transmitting uplink data according to a described AG information.

Step 304, described subscriber equipment detect on a described E-AGCH channel.

If the described subscriber equipment of step 305 is determined to carry the 2nd AG information at a described E-AGCH channel, and described subscriber equipment is to described 2nd AG information decoding failure, then described subscriber equipment stops transmitting uplink data.

In actual application, E-AGCH channel can be all configured on multiple code channels of network side, in this case, need to divide into groups to described subscriber equipment in advance, optionally, wireless heterogeneous networks (Radio Resource Control can be used in advance, be called for short: RRC) signaling is the configuration that described subscriber equipment carries out multiple channel group information, if after a period of time has passed, it is uneven that the quantity of the described subscriber equipment in each channel group becomes, then described subscriber equipment can receive the channel switching command that described base station sends, described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting, to guarantee each time slot having subscriber equipment carrying out transmitting uplink data.Wherein, described channel switching command can be physical layer signaling, as shared control channel (Shared Control Channel for HS-DSCH, the abbreviation: HS-SCCH) order of high speed descending sharing channel.

The method of the dispatching user facility that the present embodiment provides is in concrete implementation procedure, described subscriber equipment only needs the E-AGCH channel to indicating in described second configuration information to detect, a described AG information of described subscriber equipment is sent to and successfully decoded if detect, then described subscriber equipment obtains a described AG information according to the decode results of a described AG information, and carry out transmitting uplink data according to a described AG information, if described subscriber equipment determines to carry the 2nd AG information sending to other subscriber equipmenies except described subscriber equipment on described E-AGCH channel, then described subscriber equipment stops transmitting uplink data.

The technical scheme of the present embodiment, the second configuration information that described RNC issues is received by described subscriber equipment, and detect on the E-AGCH channel corresponding with described subscriber equipment according to described second configuration information, described E-AGCH channel is determined carry a described AG information and successfully decoded, decode results according to a described AG information obtains a described AG information, and carry out transmitting uplink data according to a described AG information, and determine to carry on described E-AGCH channel send to the 2nd AG information of other subscriber equipmenies after stop transmitting uplink data, thus realize dispatching multiple subscriber equipment at synchronization.

Fig. 4 is the flow chart of dispatching method embodiment four of the present invention.As shown in Figure 4, the method that the present embodiment provides specifically can be performed by network side, and the method for the present embodiment can comprise:

Step 401, described network side issue the first configuration information to described subscriber equipment, described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel, specifically can issue the first configuration information by the RNC of network side.

Step 402, described network side determine multiple E-AGCH channels of transmission information.

Be understandable that, the base station of described network side can in multiple E-AGCH channel information, to realize dispatching multiple subscriber equipment at synchronization.

The base station of step 403, described network side in described multiple E-AGCH channel information, to make the E-AGCH channel of subscriber equipment in described multiple E-AGCH channel is determined to carry an AG information.

The technical scheme of the present embodiment, be the pre-configured multiple E-AGCH channel of described subscriber equipment by the RNC of described network side by the first configuration information issued to described subscriber equipment, namely indicate described subscriber equipment to detect respectively on described multiple E-AGCH channel; The base station of described network side is after for the multiple E-AGCH channel of described user device configuration, described base station determine to transmit described information multiple E-AGCH channel and in described multiple E-AGCH channel information, determine to make described subscriber equipment to carry an AG information on E-AGCH channel, thus realize dispatching multiple subscriber equipment at synchronization.

Fig. 5 is the flow chart of dispatching method embodiment five of the present invention.As shown in Figure 5, the method that the present embodiment provides specifically can be performed by network side, and the method for the present embodiment can comprise:

The RNC of step 501, described network side issues the second configuration information to described subscriber equipment, and described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

The base station of step 502, described network side determines multiple E-AGCH channels of transmission information.

The base station of step 503, described network side in described multiple E-AGCH channel information, to make the E-AGCH channel of subscriber equipment in described multiple E-AGCH channel is determined to carry an AG information.

It should be noted that, in the present embodiment, for subscriber equipment, each described subscriber equipment only needs detection E-AGCH channel, and for described base station, at synchronization to multiple user device transmissions information, transmitting uplink data can be carried out to make multiple subscriber equipment simultaneously, that is, realize dispatching multiple subscriber equipment at synchronization.

The base station of step 504, described network side is to described subscriber equipment transmitting channel switching command, and described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting.

In actual application, E-AGCH channel can be all configured on multiple code channels of network side, in this case, need to divide into groups to described subscriber equipment in advance, optionally, wireless heterogeneous networks (Radio Resource Control can be used in advance, be called for short: RRC) signaling is the configuration that described subscriber equipment carries out multiple channel group information, if after a period of time has passed, it is uneven that the quantity of carrying out the described subscriber equipment of transmitting uplink data in each channel group becomes, then described base station can to described subscriber equipment transmitting channel switching command, optionally, described channel switching command can be physical layer signaling, as HS-SCCH order.

The technical scheme of the present embodiment, by second configuration information of described base station by issuing to described subscriber equipment, indicates described subscriber equipment to detect on the E-AGCH channel corresponding with described subscriber equipment; Described base station determine to transmit described information multiple E-AGCH channel and in described multiple E-AGCH channel information, determine to make described subscriber equipment to carry an AG information on the E-AGCH channel of correspondence, thus realize dispatching multiple subscriber equipment at synchronization.

Fig. 6 is the flow chart of dispatching method embodiment six of the present invention.As shown in Figure 6, the method that the present embodiment provides specifically can be performed by subscriber equipment, the present embodiment is by dividing into groups according to TTI for each subscriber equipment in advance, make subscriber equipment in multiple TTI of correspondence, E-AGCH channel detects AG information, realize dispatching multiple subscriber equipment in multiple TTI, the method that the present embodiment provides can comprise:

The enhancing dedicated channel absolute grant channel (E-AGCH) that step 601, reception network side send, the E-AGCH that the base station that specifically can receive network side sends.

Multiple TTI of described correspondence refer to that described subscriber equipment divides into groups according to TTI, in multiple TTI of described subscriber equipment in the TTI group that described subscriber equipment is corresponding, E-AGCH channel are determined carry an AG information.

It should be noted that, about TTI grouping, before to TTI grouping, first can be numbered TTI and obtain TTI code T TIN, such as:

For 10ms TTI, TTIN=CFN;

For 2ms TTI, TTIN=5*CFN+subframe number;

Wherein to be Connection Frame Number (Connection Frame Number), subframe number be CFN to 5 TTI countings in a given CFN, and first TTI is designated as 0, and last TTI is designated as 4;

Then the TTI utilizing TTI to number divides into groups, and supposes to be divided into N group, can obtain grouping serial number 0 ~ N-1 with mod (TTIN, N).Such as N=3, then mod (TTIN, N)=0 is the 0th group, mod (TTIN, N)=1 be the 1st group, (TTIN, N)=2 be the 2nd group, and the TTI in each group is exactly multiple Transmission Time Interval TTI of described correspondence;

Further, because the value of CFN is all limited, in order to ensure the continuity on value border, a parameter A can be increased again, in once complete connection mode (Connected mode) process of terminal equipment, the initial value of A is 0, and the value of the maximum at every turn reaching CFN then A adds 1.

Concrete, because the scope of CFN is 0 ~ 255(for being 0 ~ 4095 during PCH), then to TTI be numbered obtain TTI code T TIN time:

For 10ms TTI, TTIN=CFN+256*A;

For 2ms TTI, TTIN=5*CFN+5*256*A+subframe number;

Enter connection mode at terminal equipment, A value is 0, and reach the maximum (namely 255) of CFN afterwards, then the value of A adds 1 at every turn.Connection mode comprises four kinds of states: CELL_DCH, CELL_FACH, CELL_PCH and URA_PCH.

Then the TTI utilizing TTI to number divides into groups, and supposes to be divided into N group, can obtain grouping serial number 0 ~ N-1 with mod (TTIN, N).Such as N=3, then mod (TTIN, N)=0 is the 0th group, mod (TTIN, N)=1 be the 1st group, (TTIN, N)=2 be the 2nd group, and the TTI in each group is exactly multiple Transmission Time Interval TTI of described correspondence;

Further, the CFN in above two kinds of execution modes also can change SFN (System Frame Number: System Frame Number) and BFN (NodeB Frame Number:NodeB frame number) into, and the value of SFN and BFN is from 0 ~ 4095.

Alternatively, before this step, described subscriber equipment in multiple TTI of described correspondence, described E-AGCH channel can detect a described AG information; Or, described subscriber equipment can in other TTI in multiple TTI of described correspondence and except multiple TTI of described correspondence, described E-AGCH channel detects a described AG information, namely, described subscriber equipment only can detect AG information on multiple TTI of correspondence, also can all detect AG information on all TTI, the present embodiment does not limit this.

It should be noted that, in above-mentioned two situations, described subscriber equipment is only in multiple TTI of correspondence, described E-AGCH channel detects an AG information and successfully decoded, just obtain a described AG information according to the decode results of a described AG information, and carry out transmitting uplink data according to a described AG information, if described subscriber equipment detects the 2nd AG information and decoding failure in other TTI except corresponding multiple TTI, described subscriber equipment still can proceed transmitting uplink data.

Step 602, subscriber equipment are in multiple Transmission Time Interval TTI of correspondence, when determining to carry the first absolute grant (AG) information on described E-AGCH channel, described subscriber equipment carries out transmitting uplink data according to a described AG information, wherein, a described AG information indicates nonzero digit authorization value, or, authorization value.

Particularly, the AG information that described subscriber equipment can carry described E-AGCH carries out decoding, if successfully decoded, then described subscriber equipment obtains a described AG information according to decode results, and carries out transmitting uplink data according to a described AG information.

Particularly, described subscriber equipment carries out transmitting uplink data on the activation TTI of described E-AGCH channel.

Step 603, when described subscriber equipment is within described multiple TTI, when determining the 2nd AG information carrying other subscriber equipmenies except described subscriber equipment on described E-AGCH channel, described subscriber equipment stops transmitting uplink data;

Particularly, if described subscriber equipment is in multiple TTI of described correspondence, described E-AGCH channel is determined carry the 2nd AG information, and described subscriber equipment is to described 2nd AG information decoding failure, namely known 2nd AG information is the AG information of other subscriber equipmenies, then described subscriber equipment stops transmitting uplink data.

It will be appreciated by those skilled in the art that, if described subscriber equipment is outside multiple TTI of described correspondence, described E-AGCH channel is determined to carry the described 2nd AG information of other subscriber equipmenies except described subscriber equipment in network, then described subscriber equipment does not stop transmitting uplink data.

The technical scheme of the present embodiment, by subscriber equipment in multiple TTI of correspondence, E-AGCH channel is determined carry an AG information; Described subscriber equipment carries out decoding to a described AG information, if successfully decoded, then described subscriber equipment carries out transmitting uplink data according to a described AG information; If described subscriber equipment is in multiple TTI of described correspondence, described E-AGCH channel is determined carry the 2nd AG information, and described subscriber equipment is to described 2nd AG information decoding failure, then described subscriber equipment stops transmitting uplink data, thus realizes dispatching multiple subscriber equipment simultaneously.

On the basis of above-described embodiment, before step 601, can also comprise in the dispatching method that the present embodiment provides:

The configuration information that the RNC that described subscriber equipment receives network side issues, described configuration information is used to indicate described subscriber equipment on described E-AGCH channel, detects multiple TTI corresponding to AG information.

It should be noted that, the grouping information of described configuration information specifically for indicating described subscriber equipment to detect the described multiple TTI corresponding to AG information on described E-AGCH channel.Described configuration information can be passed through in described base station, for the multiple TTI group of described user device configuration, if after a period of time has passed, it is uneven that the quantity of carrying out the described subscriber equipment of transmitting uplink data in each TTI group becomes, then described subscriber equipment can receive the grouping switching command that described base station sends, and described grouping switching command is used to indicate described subscriber equipment and in pre-configured multiple TTI groups, switches described subscriber equipment detect described multiple TTI corresponding to AG information.Wherein, described grouping switching command can be physical layer signaling, as HS-SCCH order.

The technical scheme of the present embodiment, the configuration information that the RNC receiving network side by described subscriber equipment issues is the multiple TTI group of described user device configuration, and the quantity of carrying out the described subscriber equipment of transmitting uplink data in each TTI group uneven time, described subscriber equipment switches the multiple TTI corresponding to described subscriber equipment detection AG information according to the grouping switching command that described base station sends, thus can switch fast between different TTI group, and then realize dispatching multiple subscriber equipment simultaneously.

Fig. 7 is the flow chart of dispatching method embodiment seven of the present invention.As shown in figure seven, the method that the present embodiment provides specifically can be performed by the base station of network side, and the method that the present embodiment provides can comprise:

Step 701, base station determine multiple TTI of the E-AGCH channel that subscriber equipment is corresponding.

Multiple TTI that step 702, described base station are corresponding according to determined described subscriber equipment, in E-AGCH channel the one AG information.

The technical scheme of the present embodiment, issues configuration information by the RNC of described network side to described subscriber equipment; Multiple TTI of the E-AGCH channel that subscriber equipment is corresponding are determined in the base station of network side; Multiple TTI that described base station is corresponding according to determined described subscriber equipment, in E-AGCH channel the one AG information, thus realize dispatching multiple subscriber equipment simultaneously.

On the basis of above-described embodiment, after step 701, the method that the present embodiment provides can also comprise:

The RNC of described network side issues configuration information to described subscriber equipment, and described configuration information is used to indicate described subscriber equipment on described E-AGCH channel, detects multiple TTI corresponding to AG information.

It should be noted that, described configuration information specifically may be used for indicating described subscriber equipment on described E-AGCH channel, detect TTI grouping information corresponding to AG information.The RNC of described network side can pass through described configuration information, for the multiple TTI group of described user device configuration, if after a period of time has passed, it is uneven that the quantity of carrying out the described subscriber equipment of transmitting uplink data in each TTI group becomes, the grouping switching command that the base station that then described subscriber equipment can receive described network side sends, described grouping switching command is used to indicate described subscriber equipment and in pre-configured multiple TTI groups, switches described subscriber equipment detect described multiple TTI corresponding to AG information.Wherein, described grouping switching command can be physical layer signaling, as HS-SCCH order.

The technical scheme of the present embodiment, issuing configuration information by RNC to described subscriber equipment is the multiple TTI group of described user device configuration, and the quantity of carrying out the described subscriber equipment of transmitting uplink data in each TTI group uneven time, grouping switching command is sent to described subscriber equipment, switch described subscriber equipment to make described subscriber equipment and detect multiple TTI corresponding to AG information, thus can switch fast between different TTI group, and then realize dispatching multiple subscriber equipment simultaneously.

With a concrete example, embodiment of the method shown in Fig. 6 and Fig. 7 is further described below.

RNC is user equipment allocation E-AGCH channel by configuration information, again described E-AGCH channel is divided into groups according to TTI, in the present embodiment, be described to be divided into odd number TTI group and even number TTI group, in described odd number TTI group, comprise first user equipment and the 3rd subscriber equipment, in described even number TTI group, comprise the second subscriber equipment and the 4th subscriber equipment.

If first user equipment is determined carrying and to be known clearly an AG information successfully decoded on odd number TTI, then described first user equipment is determined to carry a described AG information according to the decode results of a described AG information and is started to carry out transmitting uplink data according to a described AG information; If the second subscriber equipment is determined carrying and to be known clearly the 2nd AG information successfully decoded on even number TTI, then described second subscriber equipment obtains described 2nd AG information according to the decode results of described 2nd AG information and starts to carry out transmitting uplink data according to described 2nd AG information.

Described 3rd subscriber equipment is allowed to carry out transmitting uplink data if described base station wants to close described first user equipment, then described base station needs to transmit the 3rd information on odd number TTI, determine in odd number TTI to make described first user equipment to carry the 3rd information and after decoding failure, stop transmitting uplink data, and the 3rd subscriber equipment obtains described 3rd AG information according to the decode results of described 3rd information, and start to carry out transmitting uplink data according to described 3rd AG information; Same, described 4th subscriber equipment is allowed to carry out transmitting uplink data if described base station wants to close described second subscriber equipment, then described base station needs to transmit the 4th information on even number TTI, determine in even number TTI to make described second subscriber equipment to carry the 4th information and after decoding failure, stop transmitting uplink data, and the 4th subscriber equipment is according to the decode results of described 4th information being obtained to described 4th AG information, and start to carry out transmitting uplink data according to described 4th AG information.

The technical scheme of the present embodiment, both can save downlink signaling, can also realize dispatching multiple subscriber equipment at synchronization simultaneously.

Fig. 8 is the structural representation of subscriber equipment embodiment one of the present invention.As shown in Figure 8, the subscriber equipment 10 that the present embodiment provides can comprise: receiver module 11, detection module 12 and processing module 13.

Wherein, receiver module 11, for receiving multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH that network side sends;

Detection module 12, absolute grant (AG) information for the multiple E-AGCH channel bearings received receiver module 11 detects;

Processing module 13, during for determining the first absolute grant (AG) information E-AGCH channel in multiple E-AGCH carrying this subscriber equipment when detection module 12, carries out transmitting uplink data according to a described AG information;

When described processing module 13 is also for determining when detection module 12 to carry the 2nd AG information of other subscriber equipmenies except described subscriber equipment on a described E-AGCH channel, then stop transmitting uplink data.

Further, in a kind of possible execution mode, when described processing module 13 is also for determining when detection module 12 to carry the 3rd AG information of described subscriber equipment on other E-AGCH channels except a described E-AGCH channel, carry out transmitting uplink data according to described 3rd AG information; Or

When detection module 12 is determined not carry the absolute grant AG information of described subscriber equipment on other E-AGCH channels except a described E-AGCH channel, maintain current transmitting uplink data.

In the execution mode that another kind is possible, because multiple E-AGCH channel can be separate, processing module 13 does not respond for the AG information of other E-AGCH channel bearings except a described E-AGCH channel, maintain the transmitting uplink data that subscriber equipment is current, that is, other E-AGCH channels except a described E-AGCH channel do not affect the current transmitting uplink data of described subscriber equipment.

Optional, described detection module 12 specifically may be used for detecting respectively on described multiple E-AGCH channel, and any one E-AGCH channel in described multiple E-AGCH channel is determined to carry a described AG information; Or, described detection module 12 specifically may be used for an E-AGCH channel corresponding with described subscriber equipment 10 in described multiple E-AGCH channel detects, and determines to carry a described AG information on the E-AGCH channel of described subscriber equipment 10 correspondence.

In a kind of feasible execution mode, described subscriber equipment 10 can also comprise configuration module 14, the first configuration information that the RNC that described configuration module 14 may be used for receiving network side issues, the detection module 12 that described first configuration information is used to indicate described subscriber equipment 10 detects respectively on described multiple E-AGCH channel.

In the execution mode that another kind is feasible, the second configuration information that the RNC that described configuration module 14 can also be used for receiving described network side issues, the detection module 12 that described second configuration information is used to indicate subscriber equipment 10 described in described multiple E-AGCH channel and described multiple E-AGCH channel carries out the corresponding E-AGCH channel detected.

Optional, the channel switching command that the base station that described configuration module 14 can also be used for receiving described network side sends, described channel switching command is used to indicate described subscriber equipment 10 in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment 10 carries out detecting.

The subscriber equipment that the present embodiment provides, can be used for the technical scheme performing said method embodiment, it realizes principle and technique effect is similar, repeats no more herein.

Fig. 9 is the structural representation of the embodiment one of network equipment of the present invention.As shown in Figure 9, the network equipment that the present embodiment provides can comprise: base station 20, and base station 20 can comprise: channel determination module 21 and sending module 22.

Wherein, channel determination module 21 is for determining the multiple E-AGCH channels transmitting AG information;

Sending module 22 in described multiple E-AGCH channel AG information, to make the E-AGCH channel of subscriber equipment in described multiple E-AGCH channel is determined to carry an AG information.

In a kind of feasible execution mode, described network equipment also comprises: radio network controller 23;

Described radio network controller 23 for:

Issue the first configuration information to described subscriber equipment, described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel; Or,

Issue the second configuration information to described subscriber equipment, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

Further, described sending module 22 can also be used for described subscriber equipment transmitting channel switching command, and described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting.

The base station that the present embodiment provides, can be used for the technical scheme performing said method embodiment, it realizes principle and technique effect is similar, repeats no more herein.

Figure 10 is the structural representation of subscriber equipment embodiment two of the present invention.As shown in Figure 10, the subscriber equipment 30 that the present embodiment provides can comprise: receiver module 31, detection module 32 and processing module 33.

Wherein, receiver module 31, one that sends for receiving network side strengthens dedicated channel absolute grant channel E-AGCH;

Detection module 32, the absolute grant AG information for the E-AGCH channel bearing received receiver module 31 detects;

Processing module 33, for working as detection module 32 in multiple Transmission Time Interval TTI of correspondence, when determining the first absolute grant (AG) information carrying described subscriber equipment on described E-AGCH channel, transmitting uplink data is carried out according to a described AG information, wherein, a described AG information indicates nonzero digit authorization value, or, authorization value.

Described processing module 33 also for when described detection module 32 is within described multiple TTI, when determining the 2nd AG information carrying other subscriber equipmenies except described subscriber equipment on described E-AGCH channel, stops transmitting uplink data.

Further, in a kind of possible execution mode, described processing module 33 can also be used for when described detection module 32 is outside described multiple TTI, determine, when carrying the 3rd AG information of described subscriber equipment on described E-AGCH channel, to carry out transmitting uplink data according to described 3rd AG information; Or

When described detection module 32 is outside described multiple TTI, determine that described subscriber equipment maintains current transmitting uplink data when not carrying the absolute grant AG information of described subscriber equipment on described E-AGCH channel.

In the execution mode that another kind is possible, processing module 33 for, outside described multiple TTI, the AG information of described E-AGCH channel bearing does not respond, maintain current transmitting uplink data, namely, outside described multiple TTI, described E-AGCH channel does not affect the current transmitting uplink data of described subscriber equipment.

In a kind of feasible execution mode, described detection module 32 may be used in multiple TTI of described correspondence, and described E-AGCH channel detects a described AG information; Or described detection module in other TTI in multiple TTI of described correspondence and except multiple TTI of described correspondence, described E-AGCH channel can detect a described AG information.

Described processing module 33 specifically may be used for carrying out transmitting uplink data on the activation TTI of described E-AGCH channel.

Optional, described subscriber equipment 30 can also comprise configuration module 34, described configuration module 34 may be used for receiving the configuration information that the RNC of network side issues, and described configuration information is used to indicate described subscriber equipment 30 on described E-AGCH channel, detects multiple TTI corresponding to AG information.

Wherein, described configuration information specifically may be used for indicating described subscriber equipment 30 on described E-AGCH channel, detect the grouping information of the described multiple TTI corresponding to AG information.

Further, described configuration module 34 can also be used for receiving the grouping switching command that described base station sends, and described grouping switching command is used to indicate described subscriber equipment 30 and in pre-configured multiple TTI groups, switches described subscriber equipment 30 detect described multiple TTI corresponding to AG information.

The subscriber equipment that the present embodiment provides, can be used for the technical scheme performing said method embodiment, it realizes principle and technique effect is similar, repeats no more herein.

Figure 11 is the structural representation of the embodiment two of network equipment of the present invention.As shown in figure 11, the network equipment that the present embodiment provides comprises: base station 40, and base station 40 can comprise: determination module 41 and sending module 42.

Wherein, determination module 41 is for determining multiple TTI of the E-AGCH channel that subscriber equipment is corresponding;

Sending module 42 for the multiple TTIs corresponding according to determined described subscriber equipment, in E-AGCH channel the one AG information.

Further, described network equipment also comprises: radio network controller 43, radio network controller 43 may be used for issuing configuration information to described subscriber equipment, and described configuration information is used to indicate described subscriber equipment on described E-AGCH channel, detects multiple TTI corresponding to AG information.Wherein, described configuration information specifically may be used for indicating described subscriber equipment on described E-AGCH channel, detect TTI grouping information corresponding to AG information.

In a kind of possible execution mode, described sending module 42 can also be used for sending grouping switching command to described subscriber equipment, and described grouping switching command is used to indicate described subscriber equipment and in pre-configured multiple TTI groups, switches described subscriber equipment detect described multiple TTI corresponding to AG information.

The network equipment that the present embodiment provides, can be used for the technical scheme performing said method embodiment, it realizes principle and technique effect is similar, repeats no more herein.

As shown in figure 12, the embodiment of the present invention eight additionally provides a kind of dispatching method, comprising:

Step 801, network side are the pre-configured multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH channel of subscriber equipment;

It should be noted that, in the present embodiment, network side is in multiple E-AGCH channels of base station configuration, each channel adopts an Orthogonal Variable Spreading Factor OVSF (Orthogonal Variable Spreading Factor respectively, OVSF) as spreading code, UE receives absolute grant AG information from pre-configured corresponding ovsf code.

Step 802, described network side indicate described subscriber equipment to switch current E-AGCH channel, and described current E-AGCH channel is that described subscriber equipment obtains an E-AGCH channel of absolute grant AG information from described multiple E-AGCH channel;

It should be noted that, the current E-AGCH channel of switching in the present embodiment, actual is exactly that network side adopts another ovsf code to issue AG information to UE, should know, downlink packet access technology (High Speed Downlink Packet Access at high speeds, HSDPA), in, network side can pass through HS-SCCH (downlink, shared control massage) and send signaling and carry out equipment for indicating user and switch.

Further, in the present embodiment, described network side indicates described subscriber equipment to switch current E-AGCH channel to comprise: described network side indicates described subscriber equipment to be switched to target E-AGCH channel from described current E-AGCH channel, the load of described target-AGCH channel is less than described current E-AGCH channel, it should be noted that, network side can switch according to the load variations on pre-configured multiple E-AGCH channels, here load refers to the data payload being in the subscriber equipment of data activation state that each E-AGCH channel is dispatched, particularly, as: when the data payload of unique user equipment is suitable, if there are 10 data excited users equipment in network, there are 2 E-AGCH channels, so network side gives each E-AGCH channel configuration 5 subscriber equipmenies, but through after a period of time, possible certain user's number of devices passes end and has exited, then 1 E-AGCH channel also remains 5, another E-AGCH channel also remains 2, so certain user on previous E-AGCH channel may be switched to the 2nd upper E-AGCH channel, to make the load balancing of two E-AGCH channels, again such as: when the data payload of unique user equipment is inconsistent, can according to the data payload situation of dispatched users on E-AGCH channel, the load such as just having started user corresponding to two E-AGCH channels is equality, but after a period of time, along with the change of the upstream data demand of subscriber equipment, even if number of user equipment does not become, the data payload that also possibility E-AGCH channel is corresponding is higher, switching then also can be utilized to reconfigure to do some, make the load balancing of two E-AGCH channels.

In the present embodiment, step 801 also comprises: described network side issues the second configuration information to described subscriber equipment, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected, that is, network side equipment for indicating user, network side is the pre-configured E-AGCH channel of this subscriber equipment, and subscriber equipment obtains by detecting this E-AGCH channel the AG information issued.

In the present invention, network side, by dispatching the subscriber equipment on multiple E-AGCH channel, makes the load of multiple E-AGCH channel realize balanced.

As shown in figure 13, the embodiment of the present invention additionally provides a kind of communication network, comprising:

Radio network controller 51, for being the pre-configured multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH channel of subscriber equipment;

Base station 52, is used to indicate described subscriber equipment and switches current E-AGCH channel, and described current E-AGCH channel is that described subscriber equipment obtains an E-AGCH channel of absolute grant AG information from described multiple E-AGCH channel.

It should be noted that, the communication network of the present embodiment comprises the base station 52 in network side network side, and the radio network controller 51 in core net, wherein, radio network controller 51 is the multiple E-AGCH channel of user device configuration by high-level signaling, base station 52 switches current E-AGCH channel by physical layer signaling equipment for indicating user, particularly, base station 52 can be passed through HS-SCCH (downlink, shared control massage) and send signaling and carry out equipment for indicating user and switch.

In the present embodiment, described base station 52 is switched to target E-AGCH channel specifically for indicating described subscriber equipment from described current E-AGCH channel, and the load of described target-AGCH channel is less than described current E-AGCH channel.

Further, in the present embodiment, described radio network controller 51 also for: issue the second configuration information to described subscriber equipment, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

It should be noted that, the feature in the dispatching method that the feature in the present embodiment can provide with reference to previous embodiment eight, repeats no more here.

In the present invention, network side, by dispatching the subscriber equipment on multiple E-AGCH channel, makes the load of multiple E-AGCH channel realize balanced.

Fig. 8 is the structural representation of subscriber equipment embodiment one of the present invention.As shown in Figure 8, the subscriber equipment 10 that the present embodiment provides can comprise: acquisition module 11, processing module 12 and detection module 13.

Wherein, acquisition module 11, determines to carry an AG information on the E-AGCH channel in multiple E-AGCH channel;

Processing module 12, for carrying out decoding to a described AG information, if successfully decoded, then described subscriber equipment is determined to carry an AG information according to the decode results of a described AG information, and carries out transmitting uplink data according to a described AG information;

Detection module 13, for detecting on a described E-AGCH channel;

Described acquisition module 11 also for determining to carry the 2nd AG information on a described E-AGCH channel, and described processing module 12 is also for then stopping transmitting uplink data to described 2nd AG information decoding failure.

Further, if described acquisition module 11 is also at other E-AGCH channels except a described E-AGCH channel, determine to carry described 2nd AG information, and to described 2nd AG information decoding failure, do not stop transmitting uplink data.

Optional, described acquisition module 11 specifically may be used for detecting respectively on described multiple E-AGCH channel, and any one E-AGCH channel in described multiple E-AGCH channel is determined to carry a described AG information; Or, described acquisition module 11 specifically may be used for an E-AGCH channel corresponding with described subscriber equipment 10 in described multiple E-AGCH channel detects, and determines to carry a described AG information on the E-AGCH channel of described subscriber equipment 10 correspondence.

In a kind of feasible execution mode, described subscriber equipment 10 can also comprise receiver module, described receiver module may be used for receiving the first configuration information that described base station issues, and described first configuration information is used to indicate described subscriber equipment 10 and detects respectively on described multiple E-AGCH channel.

Further, described receiver module can also be used for receiving the second configuration information that described base station issues, and described second configuration information is used to indicate subscriber equipment 10 described in described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

Optional, described receiver module can also be used for receiving the channel switching command that described base station sends, and described channel switching command is used to indicate described subscriber equipment 10 in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment 10 carries out detecting.

The subscriber equipment that the present embodiment provides, can be used for the technical scheme performing said method embodiment, it realizes principle and technique effect is similar, repeats no more herein.

Fig. 9 is the structural representation of base station embodiment one of the present invention.As shown in Figure 9, the base station 20 that the present embodiment provides can comprise: channel determination module 21 and sending module 22.

Wherein, channel determination module 21 is for determining multiple E-AGCH channels of transmission information;

Sending module 22 in described multiple E-AGCH channel information, to make the E-AGCH channel of subscriber equipment in described multiple E-AGCH channel is determined to carry an AG information.

Further, described sending module 22 can also be used for issuing the first configuration information to described subscriber equipment, and described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel; Or described sending module 22 can also issue the second configuration information to described subscriber equipment, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

In a kind of feasible execution mode, described sending module 22 can also be used for described subscriber equipment transmitting channel switching command, and described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting.

The base station that the present embodiment provides, can be used for the technical scheme performing said method embodiment, it realizes principle and technique effect is similar, repeats no more herein.

Figure 10 is the structural representation of subscriber equipment embodiment two of the present invention.As shown in Figure 10, the subscriber equipment 30 that the present embodiment provides can comprise: acquisition module 31 and processing module 32.

Wherein, acquisition module 31, in multiple TTI of correspondence, E-AGCH channel is determined carry an AG information;

Processing module 32, for carrying out decoding to a described AG information, if successfully decoded, then described subscriber equipment obtains an AG information according to the decode results of a described AG information, and carries out transmitting uplink data according to a described AG information;

Described acquisition module 31, also in multiple TTI of described correspondence, described E-AGCH channel is determined carry the 2nd AG information, and described processing module 32 also for described 2nd AG information decoding failure, then stops transmitting uplink data.

Further, described acquisition module 31 can also be used for outside multiple TTI of described correspondence, described E-AGCH channel is determined carry described 2nd AG information, and to described 2nd AG information decoding failure, does not stop transmitting uplink data.

In a kind of feasible execution mode, described subscriber equipment 30 can also comprise detection module, and described detection module may be used in multiple TTI of described correspondence, and described E-AGCH channel detects a described AG information; Or described detection module in other TTI in multiple TTI of described correspondence and except multiple TTI of described correspondence, described E-AGCH channel can detect a described AG information.

Described processing module 32 specifically may be used for carrying out transmitting uplink data on the activation TTI of described E-AGCH channel.

Optional, described subscriber equipment 30 can also comprise receiver module, described receiver module may be used for receiving the configuration information that issues of base station, and described configuration information is used to indicate described subscriber equipment 30 on described E-AGCH channel, detects multiple TTI corresponding to AG information.Wherein, described configuration information specifically may be used for indicating described subscriber equipment 30 on described E-AGCH channel, detect the grouping information of the described multiple TTI corresponding to AG information.

Further, described receiver module can also be used for receiving the grouping switching command that described base station sends, and described grouping switching command is used to indicate described subscriber equipment 30 and in pre-configured multiple TTI groups, switches described subscriber equipment 30 detect described multiple TTI corresponding to AG information.

The subscriber equipment that the present embodiment provides, can be used for the technical scheme performing said method embodiment, it realizes principle and technique effect is similar, repeats no more herein.

In several embodiment provided by the present invention, should be understood that, disclosed apparatus and method, can realize by another way.Such as, device embodiment described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of device or unit or communication connection can be electrical, machinery or other form.

The described unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed in multiple network element.Some or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, also can be that the independent physics of unit exists, also can two or more unit in a unit integrated.Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that hardware also can be adopted to add SFU software functional unit realizes.

The above-mentioned integrated unit realized with the form of SFU software functional unit, can be stored in a computer read/write memory medium.Above-mentioned SFU software functional unit is stored in a storage medium, comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) or processor (processor) perform the part steps of method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, read-only memory (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), magnetic disc or CD etc. various can be program code stored medium.

Those skilled in the art can be well understood to, for convenience and simplicity of description, only be illustrated with the division of above-mentioned each functional module, in practical application, can distribute as required and by above-mentioned functions and be completed by different functional modules, internal structure by device is divided into different functional modules, to complete all or part of function described above.The specific works process of the device of foregoing description, with reference to the corresponding process in preceding method embodiment, can not repeat them here.

Last it is noted that above each embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to foregoing embodiments to invention has been detailed description, this area common.

Claims (51)

1. a dispatching method, is characterized in that, comprising:

Subscriber equipment receives multiple enhancing dedicated channel absolute grant channel (E-AGCH) that network side sends;

When the E-AGCH channel that described subscriber equipment is determined in described multiple E-AGCH channel carries the first absolute grant (AG) information of described subscriber equipment, described subscriber equipment carries out transmitting uplink data according to a described AG information;

Wherein, a described AG information indicates nonzero digit authorization value, or, authorization value.

2. method according to claim 1, is characterized in that, also comprises:

When described subscriber equipment is determined to carry the 2nd AG information of other subscriber equipmenies except described subscriber equipment on a described E-AGCH channel, described subscriber equipment stops transmitting uplink data.

3. method according to claim 1 and 2, is characterized in that, also comprises:

When described subscriber equipment is determined to carry the 3rd AG information of described subscriber equipment on other E-AGCH channels except a described E-AGCH channel, described subscriber equipment carries out transmitting uplink data according to described 3rd AG information; Or

When described subscriber equipment is determined not carry the absolute grant AG information of described subscriber equipment on other E-AGCH channels except a described E-AGCH channel, described subscriber equipment maintains current transmitting uplink data.

4. method according to claim 1 and 2, is characterized in that, also comprises:

Other E-AGCH channels except a described E-AGCH channel do not affect the current transmitting uplink data of described subscriber equipment.

5. method according to claim 1, is characterized in that, the first absolute grant (AG) information E-AGCH channel in described multiple E-AGCH carrying described subscriber equipment determined by described subscriber equipment, comprising:

Described subscriber equipment detects respectively on described multiple E-AGCH channel, and any one E-AGCH channel in described multiple E-AGCH channel determines the described AG information carrying described subscriber equipment; Or,

The E-AGCH channel that described subscriber equipment is corresponding with described subscriber equipment in described multiple E-AGCH channel detects, and on the E-AGCH channel that described subscriber equipment is corresponding, determines the described AG information carrying described subscriber equipment.

6. method according to claim 5, is characterized in that, described subscriber equipment also comprises before detecting respectively on described multiple E-AGCH channel:

Described subscriber equipment receives the first configuration information that described network side issues, and described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel.

7. method according to claim 5, is characterized in that, before the E-AGCH channel that described subscriber equipment is corresponding with described subscriber equipment in described multiple E-AGCH channel detects, also comprises:

Described subscriber equipment receives the second configuration information that described network side issues, and described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

8. method according to claim 7, is characterized in that, also comprises:

Described subscriber equipment receives the channel switching command that described network side sends, and described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting.

9. a dispatching method, is characterized in that, comprising:

Determine the multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH channels transmitting absolute grant (AG) information;

AG information described in described multiple E-AGCH channel, to make the E-AGCH channel of subscriber equipment in described multiple E-AGCH channel is determined to carry an AG information.

10. method according to claim 9, is characterized in that, before information described in described multiple E-AGCH channel, also comprises:

Issue the first configuration information to described subscriber equipment, described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel; Or,

Issue the second configuration information to described subscriber equipment, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

11. methods according to claim 10, is characterized in that, also comprise:

To described subscriber equipment transmitting channel switching command, described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting.

12. 1 kinds of dispatching methods, is characterized in that, comprising:

Subscriber equipment receives the enhancing dedicated channel absolute grant channel (E-AGCH) that network side sends;

When described subscriber equipment is in multiple Transmission Time Interval TTI of correspondence, when determining the first absolute grant (AG) information carrying described subscriber equipment on described E-AGCH channel, described subscriber equipment carries out transmitting uplink data according to a described AG information, wherein, a described AG information indicates nonzero digit authorization value, or, authorization value.

13. methods according to claim 12, is characterized in that, also comprise:

When described subscriber equipment is within described multiple TTI, when determining the 2nd AG information carrying other subscriber equipmenies except described subscriber equipment on described E-AGCH channel, described subscriber equipment stops transmitting uplink data.

14. methods according to claim 12 or 13, is characterized in that, also comprise:

When described subscriber equipment is outside described multiple TTI, determine that described subscriber equipment carries out transmitting uplink data according to described 3rd AG information when carrying the 3rd AG information of described subscriber equipment on described E-AGCH channel; Or

When described subscriber equipment is outside described multiple TTI, determine that described subscriber equipment maintains current transmitting uplink data when not carrying the absolute grant AG information of described subscriber equipment on described E-AGCH channel.

15. methods according to claim 12 or 13, is characterized in that, also comprise:

Outside described multiple TTI, described E-AGCH channel does not affect the current transmitting uplink data of described subscriber equipment.

16. methods according to claim 12 or 13, is characterized in that, described on E-AGCH channel, determine to carry an AG information before, also comprise:

Described subscriber equipment, in multiple TTI of described correspondence, described E-AGCH channel detects a described AG information; Or,

In described subscriber equipment other TTI in multiple TTI of described correspondence and except multiple TTI of described correspondence, described E-AGCH channel detects a described AG information.

17. methods according to claim 12, is characterized in that, described subscriber equipment carries out transmitting uplink data according to a described AG information, is specially:

Described subscriber equipment carries out transmitting uplink data on the activation TTI of described E-AGCH channel.

18. methods according to any one of claim 12-15, it is characterized in that, described subscriber equipment, in multiple TTI of correspondence, before described E-AGCH channel being determined carry an AG information, also comprises:

Described subscriber equipment receives the configuration information that described network side issues, and described configuration information is used to indicate described subscriber equipment on described E-AGCH channel, detects multiple TTI corresponding to AG information.

19. methods according to claim 18, is characterized in that, the grouping information of described configuration information specifically for indicating described subscriber equipment to detect the described multiple TTI corresponding to AG information on described E-AGCH channel.

20. methods according to claim 18 or 19, is characterized in that, also comprise:

Described subscriber equipment receives the grouping switching command that described network side sends, and described grouping switching command is used to indicate described subscriber equipment and in pre-configured multiple TTI groups, switches described subscriber equipment detect described multiple TTI corresponding to AG information.

21. 1 kinds of dispatching methods, is characterized in that, comprising:

Multiple Transmission Time Interval TTI of the enhancing dedicated channel E-DCH absolute grant channel E-AGCH channel that network side determination subscriber equipment is corresponding;

Multiple TTI that described network side is corresponding according to determined described subscriber equipment, in E-AGCH channel the one AG information.

22. methods according to claim 21, is characterized in that, after multiple TTI of the E-AGCH channel that described network side determination subscriber equipment is corresponding, also comprise:

Described network side issues configuration information to described subscriber equipment, and described configuration information is used to indicate described subscriber equipment on described E-AGCH channel, detects multiple TTI corresponding to absolute grant (AG) information.

23. methods according to claim 22, is characterized in that, described configuration information detects TTI grouping information corresponding to AG information specifically for indicating described subscriber equipment on described E-AGCH channel.

24. methods according to claim 22 or 23, is characterized in that, also comprise:

Described network side sends grouping switching command to described subscriber equipment, and described grouping switching command is used to indicate described subscriber equipment and in pre-configured multiple TTI groups, switches described subscriber equipment detect described multiple TTI corresponding to AG information.

25. 1 kinds of subscriber equipmenies, is characterized in that, comprising:

Receiver module, for receiving multiple enhancing dedicated channels (E-DCH) absolute grant channel (E-AGCH) that network side sends;

Detection module, absolute grant (AG) information for the multiple E-AGCH channel bearings received described receiver module detects;

Processing module, during for determining when described detection module the E-AGCH channel in described multiple E-AGCH carries an AG information of described subscriber equipment, carries out transmitting uplink data according to a described AG information.

26. subscriber equipmenies according to claim 25, it is characterized in that, when described processing module is also for determining when described detection module to carry the 2nd AG information of other subscriber equipmenies except described subscriber equipment on a described E-AGCH channel, then stop transmitting uplink data.

27. subscriber equipmenies according to claim 25 or 26, it is characterized in that, when described processing module is also for determining when described detection module to carry the 3rd AG information of described subscriber equipment on other E-AGCH channels except a described E-AGCH channel, carry out transmitting uplink data according to described 3rd AG information; Or

When described detection module is determined not carry the AG information of described subscriber equipment on other E-AGCH channels except a described E-AGCH channel, maintain transmitting uplink data.

28. subscriber equipmenies according to claim 25 or 26, it is characterized in that, other E-AGCH channels except a described E-AGCH channel do not affect the current transmitting uplink data of described subscriber equipment.

29. subscriber equipmenies according to claim 25, is characterized in that, described detection module specifically for:

Described multiple E-AGCH channel detects respectively, and any one E-AGCH channel in described multiple E-AGCH channel is determined to carry a described AG information; Or

An E-AGCH channel corresponding with described subscriber equipment in described multiple E-AGCH channel detects, and determines to carry a described AG information on the E-AGCH channel that described subscriber equipment is corresponding.

30. subscriber equipmenies according to claim 29, is characterized in that, described subscriber equipment also comprises: configuration module;

Described configuration module, for receiving the first configuration information that network side issues, described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel; Or

The second configuration information that described configuration module issues for receiving described network side, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

31. subscriber equipmenies according to claim 30, is characterized in that, described configuration module also for:

Receive the channel switching command that described network side sends, described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting.

32. 1 kinds of network equipments, is characterized in that, comprising: base station;

Described base station comprises:

Channel determination module, for determining the multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH channels transmitting absolute grant (AG) information;

Sending module, in described multiple E-AGCH channel AG information, to make the E-AGCH channel of subscriber equipment in described multiple E-AGCH channel is determined to carry an AG information.

33. base stations stated according to claim 32, is characterized in that, described network equipment also comprises: radio network controller;

Described radio network controller is used for:

Issue the first configuration information to described subscriber equipment, described first configuration information is used to indicate described subscriber equipment and detects respectively on described multiple E-AGCH channel; Or,

Issue the second configuration information to described subscriber equipment, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

34. base stations according to claim 33, is characterized in that, described sending module also for:

To described subscriber equipment transmitting channel switching command, described channel switching command is used to indicate described subscriber equipment in pre-configured described multiple E-AGCH channels, switches the corresponding E-AGCH channel that described subscriber equipment carries out detecting.

35. 1 kinds of subscriber equipmenies, is characterized in that, comprising:

Receiver module, one that sends for receiving network side strengthens dedicated channel absolute grant channel E-AGCH;

Detection module, the absolute grant AG information for the E-AGCH channel bearing received described receiver module detects;

Processing module, for working as described detection module in multiple Transmission Time Interval TTI of correspondence, when determining the AG information carrying described subscriber equipment on described E-AGCH channel, transmitting uplink data is carried out according to a described AG information, wherein, a described AG information indicates nonzero digit authorization value, or, authorization value.

36. subscriber equipmenies according to claim 35, it is characterized in that, described processing module is also for working as described detection module within described multiple TTI, when determining the 2nd AG information carrying other subscriber equipmenies except described subscriber equipment on described E-AGCH channel, stop transmitting uplink data.

37. subscriber equipmenies according to claim 35 or 36, it is characterized in that, described processing module is also for working as described detection module outside described multiple TTI, determine, when carrying the 3rd AG information of described subscriber equipment on described E-AGCH channel, to carry out transmitting uplink data according to described 3rd AG information; Or

When described detection module is outside described multiple TTI, determine that described subscriber equipment maintains current transmitting uplink data when not carrying the absolute grant AG information of described subscriber equipment on described E-AGCH channel.

38. subscriber equipmenies according to claim 35 or 36, it is characterized in that, outside described multiple TTI, described E-AGCH channel does not affect the current transmitting uplink data of described subscriber equipment.

39. according to the arbitrary described subscriber equipment of claim 35 to 38, it is characterized in that, described subscriber equipment can also comprise configuration module, the configuration information that described configuration module issues for receiving described network side, described configuration information is used to indicate described subscriber equipment on described E-AGCH channel, detects multiple TTI corresponding to AG information.

40., according to subscriber equipment according to claim 39, is characterized in that, the grouping information of described configuration information specifically for indicating described subscriber equipment to detect the described multiple TTI corresponding to AG information on described E-AGCH channel.

41. subscriber equipmenies according to claim 39 or 40, is characterized in that, described configuration module also for:

Receive the grouping switching command that described network side sends, described grouping switching command is used to indicate described subscriber equipment and in pre-configured multiple TTI groups, switches described subscriber equipment detect described multiple TTI corresponding to AG information.

42. 1 kinds of network equipments, is characterized in that, comprising: base station;

Described base station comprises:

Determination module, for determining multiple Transmission Time Interval TTI of the enhancing dedicated channel E-DCH absolute grant channel E-AGCH channel that subscriber equipment is corresponding;

Sending module, for the multiple TTIs corresponding according to determined described subscriber equipment, in E-AGCH channel the one AG information.

43. network equipments according to claim 42, is characterized in that, described network equipment also comprises: radio network controller; Described radio network controller is used for issuing configuration information to described subscriber equipment, and described configuration information is used to indicate described subscriber equipment on described E-AGCH channel, detects multiple TTI corresponding to AG information.

44. network equipments according to claim 43, is characterized in that, described configuration information detects TTI grouping information corresponding to AG information specifically for indicating described subscriber equipment on described E-AGCH channel.

45. network equipments according to claim 43 or 44, is characterized in that, described sending module also for:

Send grouping switching command to described subscriber equipment, described grouping switching command is used to indicate described subscriber equipment and in pre-configured multiple TTI groups, switches described subscriber equipment detect described multiple TTI corresponding to AG information.

46. 1 kinds of dispatching methods, is characterized in that, comprising:

Network side is the pre-configured multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH channel of subscriber equipment;

Described network side indicates described subscriber equipment to switch current E-AGCH channel, and described current E-AGCH channel is that described subscriber equipment obtains an E-AGCH channel of absolute grant AG information from described multiple E-AGCH channel.

47. methods according to claim 46, is characterized in that, described network side indicates described subscriber equipment to switch current E-AGCH channel to comprise:

Described network side indicates described subscriber equipment to be switched to target E-AGCH channel from described current E-AGCH channel, and the load of described target-AGCH channel is less than described current E-AGCH channel.

48. methods according to claim 46 or 47, it is characterized in that, described network side is the pre-configured multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH channel of subscriber equipment, also comprises:

Described network side issues the second configuration information to described subscriber equipment, and described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.

49. 1 kinds of communication networks, is characterized in that, comprising:

Radio network controller, for being the pre-configured multiple enhancing dedicated channel E-DCH absolute grant channel E-AGCH channel of subscriber equipment;

Base station, is used to indicate described subscriber equipment and switches current E-AGCH channel, and described current E-AGCH channel is that described subscriber equipment obtains an E-AGCH channel of absolute grant AG information from described multiple E-AGCH channel.

50. communication networks according to claim 49, it is characterized in that, described base station is switched to target E-AGCH channel specifically for indicating described subscriber equipment from described current E-AGCH channel, and the load of described target-AGCH channel is less than described current E-AGCH channel.

51. communication networks according to claim 49 or 50, is characterized in that, described radio network controller also for:

Issue the second configuration information to described subscriber equipment, described second configuration information is used to indicate subscriber equipment described in described multiple E-AGCH channel and carries out the corresponding E-AGCH channel detected.