CN101925115A - Resource scheduling method and device based on happy bit - Google Patents

Abstract

The invention discloses resource scheduling method and device based on a happy bit. The method is used for the transmission process of an enhanced uplink dedicated transmission channel in a twin-carrier mode and comprises the following steps: a network side receives the first information of E-DPCCH (Enhanced-Dedicated Physical Control Channel) on a main carrier and the second information of E-DPCCH on a subcarrier reported by a terminal, acquires a first happy bit from the first information and a second happy bit form the second information; and the network side judges whether the first happy bit and the second happy bit are consistent or not, and if not, then the network side does not perform any power control and/or scheduling processing and/or authorization processing to the terminal. The invention solves the problem of reduced performance of the terminal and a Node B caused by poor control effect, even call drop because the traditional protocol does not have the judgment principle based on two inconsistent happy bits, and further ensures that the performance of the terminal and the Node B is optimized by a concise and efficient mode.

Description

Resource regulating method and device based on happy position

Technical field

The present invention relates to the communications field, in particular to a kind of resource regulating method and device based on happy position.

Background technology

At Wideband Code Division Multiple Access (WCDMA) (Wideband Code Division Multiple Access, abbreviate WCDMA as) in the communication system, in existing system, in order to realize that high speed uplink packet inserts (High Speed Uplink Packet Access, abbreviate HSUPA as) function, introduced wireless side up link enhancement techniques.HSUPA has adopted physical layer to retransmit fast and soft merging (Hybrid Automatic Repeat request, abbreviate HARQ as), Node B (being designated hereinafter simply as NodeB) distribution schedule, shorter Transmission Time Interval (Transmission Time Interval, abbreviate TTI as), technology such as high order modulation, make single sub-district maximal uplink throughput reach 5.76Mbit/s, the data service bearing capacity and the availability of frequency spectrum of Wideband Code Division Multiple Access (WCDMA) access (Wideband Code Division Multiple Access abbreviates WCDMA as) up link have been strengthened greatly.In order to support HSUPA, medium access control (Media Access Control, abbreviating MAC as) layer comprises the MAC-es/MAC-e entity, like this, each terminal all has the special uplink channel (Enhanced_Dedicated Channel abbreviates E_DCH as) of the own enhancement mode that links to each other with NodeB.In order to make E_DCH support the size of the protocol Data Unit of transformable wireless chain control layer, introduced the MAC-is/MAC-i entity again at MAC, therefore, MAC-is/MAC-i also supports the function of E_DCH.In order to support HSUPA, physical layer has increased up-enhancing control channel (promptly up, E-DCH Dedicated Physical Control Channel E-DCH Dedicated Physical Control Channel, abbreviate E-DPCCH as) and up enhancing dedicated data channel is (promptly, E-DCH Dedicated Physical Data Channel E-DCH Dedicated Physical Data Channel, abbreviate E-DPDCH as), increased descending absolute grant channel (promptly descending, E-DCH insertion authority channel E-DCH Access Grant Channel, abbreviate E-AGCH as), descending relative authorization channel (promptly, E-DCH relative authorization channel E-DCH Relative Grant Channel, abbreviate E-RGCH as) and descending HARQ indicating channel is (promptly, E-DCH HARQ indicating channel E-DCH Hybrid ARQ Indicator Channel abbreviates E-HICH as).E-DPDCH is used to carry the transmission data of HSUPA user uplink, E-DPCCH is made up of three information fields: strengthen the uplink form and merge indication (Enhanced uplink Transmission Format Combination Index, abbreviate E-TFCI as), re-transmission sequence number (Retransmission Sequence Number, be called for short RSN) and happy position (hereinafter to be referred as the Happy position), it carries the signaling of following of demodulating data channel E-DPDCH.E-AGCH is a common signal channel, and the E-DPDCH maximum available power biasing by the user serves the sub-district indication UE at E-DCH wireless connections place is generally at a slow speed and regulates; E-RGCH is a dedicated channel, the fastest can be by the up available horsepower of 2ms time rapid adjustment UE; E-HICH is used for feedback user receiving process data symbol/non-acknowledge character (ACK/NACK) information of whether correctly reading really.

Carry out scheduling of resource by the Uu interface between base station and the terminal, the Happy position among the E-DPCCH is used to refer to terminal whether current authorization of service (Serving Grant is hereinafter to be referred as SG) is satisfied with.Under single carrier case, if following condition satisfies together, terminal will be indicated unhappy:

The data dispatching that condition 1, terminal are transmitting equals the maximum data dispatching that current SG allows;

Condition 2, terminal have enough available horsepowers to remove to transmit more high data rate;

Condition 3, in the TTI identical with the happy position, based on merging (Enhanced uplink Transmission Format Combination with enhancing uplink form, abbreviate E-TFC as) select the identical power configuration of selected power bias to send data, total E-DCH buffer state (Total E-DCH Buffer Status, abbreviate TEBS as) will ask time greater than Happy_Bit_Delay_Condition (ms), multiply by the activation number with current SG and send with total ratio of crossing number of passes.

For deactivation process, condition 1 is set up all the time.For 10msTTI, the ratio in the condition 3 is always 1.Otherwise it is happy that terminal will be indicated current service.

System stipulates the implication of the numerical value of happy bit at present, and as shown in table 1, in the mapping of happy position, the mapping value of happy correspondence is 1, and the mapping value of unhappy correspondence is 0.

The mapping of table 1happy position

The Happy position	Mapping value
		happy	1
unhappy	0

Whether the NodeB scheduler can send with the distribution power of maximum according to the Happy position on the E-DPCCH and definite terminal, judges increase, reduces still to be to keep given subscriber equipment (User Equipment abbreviates UE as) to distribute power.If the Happy position on the E-DPCCH is unhappy, then NodeB may increase terminal distribution power.If the Happy position on the E-DPCCH is happy, then NodeB can only reduce or keep given terminal distribution power.If the current transmitted power of UE is lower than its current maximum among a plurality of TTI, then should reduces it and distribute power.

High-speed dedicated grouping as descending double small district inserts replenishing of (Dual Cell-High Speed Packet Access abbreviating DC-HSDPA as), and two up carrier aggregation are introduced into.Two carrier waves belong to identical NodeB, and are adjacent carriers.Operation is used for descending 2 carrier waves that dispose at least simultaneously.Because up is two carrier waves, for E-DCH transmission each time, network side need be handled two E-DPCCH physical channels simultaneously, and has two Happy positions to report, in order to reduce the complexity that terminal and network side are handled, following merging judgment criterion is adopted in current extensive suggestion:

1, the data volume that sending of terminal equals the current E-TFC maximum data dispatching amount that SG allowed on SG and the auxilliary carrier wave on the main carrier in selecting.

2, at least on a carrier wave, terminal has enough power and sends more high data rate.

3, in the TTI identical with the happy position, based on selecting the identical power configuration of selected power bias to send data with E-TFC, TEBS will ask the time greater than Happy_Bit_Delay_Condition (ms), multiply by the activation number again with the SG sum of the SG of current main carrier and auxilliary carrier wave and send with total ratio of crossing number of passes.

Stipulating in current this field when E-DCH each time sends that the Happy position of E-PDCCH is all judged with above-mentioned criterion on two carrier waves obtains identical mapping value, then, on the E-PDCCH separately of primary/secondary carrier wave channel, transmit the Happy position of this same map value and give NodeB, NodeB just can determine that the state of terminal is happy or unhanppy, as shown in table 2, in the mapping of two carrier wave happy position, when main carrier Happy position and auxilliary carrier wave Happy position all are happy, mapping value is 11, the state of terminal is happy, when main carrier Happy position and auxilliary carrier wave Happy position all were unhappy, mapping value was 00, and the state of terminal is unhappy.

The mapping of table 2 pair carrier wave happy position

Main carrier Happy position	Auxilliary carrier wave Happy position	Mapping value	The state of terminal
				happy	happy	11	happy
unhappy	unhappy	00	unhappy

Because the mass ratio of wireless channel is relatively poor, can cause Happy position decoding error, for example: happy is misinterpreted as unhappy, and unhappy is misinterpreted as happy.Under the normal condition of two carrier modes (hereinafter to be referred as DC), for E-DCH transmission each time, NodeB receives the Happy place value on two E-DPCCH channels should be consistent.When channel error wherein, then may cause the position of Happy separately that receives on two channels inconsistent.In this case, for NodeB, just being difficult to the choice terminal is happy or unhappy.To two inconsistent situations in Happy position, agreement lacks the judgment criterion of this respect at present, and it directly influences the consequence of control, even may cause call drop, causes the performance of terminal and NodeB to reduce.

Summary of the invention

At based on the judgment criterion of inconsistent aspect, two Happy positions and the direct consequence controlled of influence of present agreement disappearance, even may cause call drop, cause the problem that the performance of terminal and NodeB reduces and propose the present invention, for this reason, main purpose of the present invention is to provide a kind of resource scheduling scheme based on happy position, to address the above problem.

According to an aspect of the present invention, provide a kind of resource regulating method, be used for the process of transmitting of the uplink dedicated transmission channel of the enhancement mode under two carrier modes based on happy position.

Resource regulating method based on happy position according to the present invention comprises: second information of E-DPCCH on the first information of E-DPCCH and the auxilliary carrier wave on the main carrier that the network side receiving terminal reports, and from the first information, obtain the first happy position, and from second information, obtain the second happy position; Network side judges whether the first happy position is consistent with the second happy position, if inconsistent, then network side does not carry out any power control and/or scheduling processing and/or authorisation process to terminal.

Preferably, judge the first happy position and the second happy position consistent comprising whether: judge whether the corresponding data of the data and the second happy position that the first happy position is corresponding equate, if then the first happy position is consistent with second happy, otherwise, the first happy position and second Happy site inconsistency.

Preferably, judge the first happy position and second happy consistent comprising whether: judge whether first happy value corresponding and second happy value corresponding all equal 1 or 0, if, then the first happy position is consistent with the second happy position, otherwise, the first happy position and second Happy site inconsistency, wherein, the state of 1 expression terminal is happy, and the state of 0 expression terminal is unhappy.

Preferably, judge the first happy position and the second happy position consistent comprising whether: judge whether according to the first happy position and second happy mapping value that obtains be 00 or 11, if, then the first happy position is consistent with the second happy position, otherwise, the first happy position and second Happy site inconsistency, wherein, the state of 11 expression terminals is happy, and the state of 00 expression terminal is unhappy.

Preferably, before the first information and second information that the network side receiving terminal reports, said method also comprises: terminal reports the first information on main carrier, and on auxilliary carrier wave, report second information, wherein, the state that the happy position in the first information and the happy position of second information all are used for indicating terminal is happy, wherein, the first information comprises following three information fields: strengthen the uplink form and merge indication, re-transmission sequence number and happy position, second information comprises following three information fields: strengthen the uplink form and merge indication, re-transmission sequence number and happy position.

Preferably, before the first information and second information that the network side receiving terminal reports, said method also comprises: terminal reports the first information on main carrier, and on auxilliary carrier wave, report second information, wherein, happy state that all is used for indicating terminal of the happy position in the first information and second information is unhappy.

According to an aspect of the present invention, provide a kind of resource scheduling device based on happy position.

Resource scheduling device based on happy position according to the present invention comprises: receiver module is used for second information of E-DPCCH on the first information of E-DPCCH on the main carrier that receiving terminal reports and the auxilliary carrier wave; Acquisition module is used for obtaining the first happy position from the first information, and obtains the second happy position from second information; Judge module is used to judge whether the first happy position is consistent with the second happy position; Control module, the judged result that is used at judge module is under the inconsistent situation, terminal is not carried out any power control and/or scheduling processing and/or authorisation process.

Preferably, judge module comprises: first judges submodule, is used to judge whether the corresponding data of the data and the second happy position that the first happy position is corresponding equate, if, then the first happy position is consistent with the second happy position, otherwise, the first happy position and second Happy site inconsistency.

Preferably, judge module comprises: second judges submodule, be used to judge whether first happy value corresponding and second happy value corresponding all equal 1 or 0, if then the first happy position is consistent with the second happy position, otherwise, the first happy position and second Happy site inconsistency, wherein, the state of 1 expression terminal is happy, and the state of 0 expression terminal is unhappy.

Preferably, judge module comprises: the 3rd judges submodule, be used to judge whether according to the first happy position and second happy mapping value that obtains be 00 or 11, if then the first happy position is consistent with the second happy position, otherwise, the first happy position and second Happy site inconsistency, wherein, the state of 11 expression terminals is happy, and the state of 00 expression terminal is unhappy.

By the present invention, under the inconsistent situation of obtaining on the E-DPCCH separately of primary/secondary carrier wave in Happy position, NodeB terminal is not carried out any power control and/or scheduling is handled and/or authorisation process, solved based on the judgment criterion of inconsistent aspect, two Happy positions and the directly consequence of influence control of present agreement disappearance, even may cause call drop, the problem that causes the performance of terminal and NodeB to reduce, and then by succinctly, mode makes the performance of terminal and NodeB reach optimum efficiently.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present invention, constitutes the application's a part, and illustrative examples of the present invention and explanation thereof are used to explain the present invention, do not constitute improper qualification of the present invention.In the accompanying drawings:

Fig. 1 is the schematic diagram based on the resource regulating method of happy position according to the embodiment of the invention;

Fig. 2 is the schematic diagram according to the embodiment of the invention 1;

Fig. 3 is the schematic diagram according to the embodiment of the invention 2;

Fig. 4 is the schematic diagram according to the embodiment of the invention 3;

Fig. 5 is the schematic diagram according to the embodiment of the invention 4;

Fig. 6 is the structured flowchart based on the resource scheduling device of happy position according to the embodiment of the invention;

Fig. 7 is the concrete structure block diagram based on the resource scheduling device of happy position according to the embodiment of the invention.

Embodiment

Functional overview

Consider based on the judgment criterion of inconsistent aspect, two Happy positions and the directly consequence of influence control of present agreement disappearance, even may cause call drop, the problem that causes the performance reduction of terminal and NodeB, the embodiment of the invention provides a kind of resource scheduling scheme based on happy position, promptly, a kind of up-enhancing control channel separately (E-DPCCH) of primary/secondary carrier wave is gone up the inconsistent processing scheme in Happy position, under the inconsistent situation of obtaining on the E-DPCCH separately of primary/secondary carrier wave in Happy position, NodeB terminal is not carried out any power control and/or scheduling is handled and/or authorisation process, and then by succinct, mode makes the performance of terminal and NodeB reach optimum efficiently.

Need to prove that under the situation of not conflicting, embodiment and the feature among the embodiment among the application can make up mutually.Describe the present invention below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

Method embodiment

According to embodiments of the invention, a kind of resource regulating method based on happy position is provided, this method is under the DC pattern, for sending with an E_DCH, processing method under the inconsistent situation in Happy position of carrying on the E-DPCCH separately of up primary/secondary carrier wave, be applicable to the WCDMA communication system, at up direction is under the situation of two carrier waves, be E-DCH transmission each time, NodeB receives the entrained Happy position of E-DPCCH separately of two carrier waves, the logic implication of two Happy position representatives is mutually internally inconsistent, NodeB then ignores the information that current Happy position reports, NodeB terminal is not carried out any power control and/or scheduling is handled and/or authorisation process, keeps existing power and authorizes constant.

Wherein, the entrained Happy position of the E-DPCCH separately of up primary/secondary carrier wave is inconsistent two kinds of situations, as shown in table 3, when main carrier happy place value be 1, when auxilliary carrier wave happy place value is 0, the happy of terminal is 10 unusually; When main carrier happy place value be 0, when auxilliary carrier wave happy place value is 1, the happy of terminal is 01 unusually.

Happy is unusual for table 3 terminal

Main carrier happy place value	Auxilliary carrier wave happy place value	The happy of terminal is unusual
			1	0	10
0	1	01

Fig. 1 is the schematic diagram based on the resource regulating method of happy position according to the embodiment of the invention, as shown in Figure 1, when sending with E-DCH, the E-DPCCH separately of up primary/secondary carrier wave goes up the Happy position when inconsistent, and this method comprises that following step 102 is to step 106:

Step 102, network side (for example, NodeB or UMTS Terrestrial radio access network (UMTS Terrestrial Radio Access Network, abbreviate UTRAN as, wherein, UMTS is universal mobile telecommunications system Universal Mobile Telecommunications System) receive the information of E-DPCCH on the primary/secondary carrier wave of terminal to report, promptly, network side receives second information of E-DPCCH on the first information of E-DPCCH on the main carrier of terminal to report and the auxilliary carrier wave, and obtain Happy position on the E-DPCCH separately of primary/secondary carrier wave respectively, that is, from the first information, obtain the first happy position, and from second information, obtain the second happy position.

Before this, terminal reports the first information on main carrier, and on auxilliary carrier wave, report second information, wherein, the state that happy position in the happy position in the first information and second information all is used for indicating terminal is happy, or the happy position in the first information and happy state that all is used for indicating terminal in second information are unhappy.

Wherein, the first information comprises following three information fields: strengthen the uplink form and merge indication, re-transmission sequence number and happy position comprise three information fields below second information: strengthen the uplink form and merge indication, re-transmission sequence number and happy position.

Step 104, network side judge whether the first happy position is consistent with the second happy position, if inconsistent, then network side (NodeB) does not carry out any power control and/or scheduling processing and/or authorisation process to terminal.

Wherein, the comparison of Happy position separately, judge inconsistent, that is, and judge the first happy position and second happy whether consistent method have multiplely, include but not limited to following several:

First kind: direct comparison method, whether the data of more primary/secondary carrier wave equate.

Particularly, judge whether the corresponding data of the data and the second happy position that the first happy position is corresponding equate, if then the first happy position is consistent with the second happy position, otherwise, the first happy position and second Happy site inconsistency.

Second kind: relatively, whether Happy position more separately all equals 1, or all equals 0 indirectly.

Particularly, judge whether first happy value corresponding and second happy value corresponding all equal 1 or 0, if, then the first happy position is consistent with the second happy position, otherwise, the first happy position and second Happy site inconsistency, wherein, the state of 1 expression terminal is happy, and the state of 0 expression terminal is unhappy.

The third: logical mappings, if two Happy position mapping value are 10 or 01, then expression is unusual.

Whether judgement is 11 or 00 according to the first happy position and second happy mapping value combination that obtains, if, then the first happy position is consistent with the second happy position, otherwise, the first happy position and second Happy site inconsistency, wherein, the state of 11 expression terminals is happy, and the state of 00 expression terminal is unhappy.

By this embodiment, stipulated to handle criterion when the inconsistent situation in Happy position takes place, can not cause flow process unusual, optimize power control and scheduling of resource processing procedure, reduce cutting off rate, thereby optimize terminal and NodeB performance.

Be described in detail below in conjunction with the implementation procedure of example the embodiment of the invention.

Embodiment 1

Fig. 2 is the schematic diagram according to the embodiment of the invention 1, as shown in Figure 2, send for this E-DCH, the E-DPCCH of terminal on 2 carrier waves (carrier) goes up and send is unhappy, and NodeB receives the Happy position of the E-DPCCH of up main carrier is happy (mapping value is 1), when the Happy position of the E-DPCCH of upstream auxiliary carriers was unhappy (mapping value is 0), the processing that NodeB is left intact comprised that specifically following step 202 is to step 206:

Step 202:NodeB receives the information of E-DPCCH on the primary/secondary carrier wave of terminal to report.

Step 204:NodeB compares the Happy position on the E-DPCCH separately on the primary/secondary carrier wave, Happy position on the E-DPCCH on the main carrier is happy (mapping value is 1), Happy position on the E-DPCCH on the auxilliary carrier wave is unhappy (mapping value is 0), and it is inconsistent that the E-DPCCH separately of primary/secondary carrier wave goes up the happy position.

Step 206:NodeB ignores the Happy position reporting information of terminal, terminal is not carried out any power control and/or scheduling processing and/or authorisation process.

Embodiment 2

Fig. 3 is the schematic diagram according to the embodiment of the invention 2, as shown in Figure 3, send for this E-DCH, it is happy that terminal sends on the E-DPCCH on 2 carrier, and NodeB receives the Happy position of the E-DPCCH of up main carrier is happy (mapping value is 1), and the Happy position of the E-DPCCH of descending auxilliary carrier wave is when being unhappy (mapping value is 0), and the processing that NodeB is left intact comprises that specifically following step 302 is to step 306:

Step 302:NodeB receives the information of E-DPCCH on the primary/secondary carrier wave of terminal to report.

Step 304:NodeB compares the Happy position on the E-DPCCH on the primary/secondary carrier wave, Happy bit on the E-DPCCH on the main carrier is happy (mapping value is 1), Happy position on the E-DPCCH on the auxilliary carrier wave is unhappy (mapping value is 0), and it is inconsistent that the E-DPCCH separately of primary/secondary carrier wave goes up the happy position.

Step 306:NodeB ignores the Happy position reporting information of terminal, terminal is not carried out any power control and/or scheduling processing and/or authorisation process.

Embodiment 3

Fig. 4 is the schematic diagram according to the embodiment of the invention 3, as shown in Figure 4, send for this E-DCH, it is unhappy that terminal sends on the E-DPCCH on 2 carrier, and NodeB receives the Happy position of the E-DPCCH of up main carrier is unhappy (mapping value is 0), and the Happy position of the E-DPCCH of upstream auxiliary carriers is when being happy (mapping value is 1), and the processing that NodeB is left intact comprises that specifically following step 402 is to step 406:

Step 402:NodeB receives the information of E-DPCCH on the primary/secondary carrier wave of terminal to report.

Step 404:NodeB compares the Happy position on the E-DPCCH on the primary/secondary carrier wave, Happy position on the E-DPCCH on the main carrier is unhappy (mapping value is 0), Happy position on the E-DPCCH on the auxilliary carrier wave is happy (mapping value is 1), and it is inconsistent that the E-DPCCH separately of primary/secondary carrier wave goes up the happy position.

Step 406:NodeB ignores the Happy position reporting information of terminal, terminal is not carried out any power control and/or scheduling processing and/or authorisation process.

Embodiment 4

Fig. 5 is the schematic diagram according to the embodiment of the invention 4, as shown in Figure 5, send for this E-DCH, it is happy that terminal sends on the E-DPCCH on 2 carrier, and NodeB receives the Happy position of the E-DPCCH of up main carrier is unhappy (mapping value is 0), and the Happy position of the E-DPCCH of upstream auxiliary carriers is when being happy (mapping value is 1), and the processing that NodeB is left intact comprises that specifically following step 502 is to step 506:

Step 502:NodeB receives the information of E-DPCCH on the primary/secondary carrier wave of terminal to report.

Step 504:NodeB compares the Happy position on the E-DPCCH on the primary/secondary carrier wave, Happy position on the E-DPCCH on the main carrier is unhappy (mapping value is 0), Happy position on the E-DPCCH on the auxilliary carrier wave is happy (mapping value is 1), and it is inconsistent that the E-DPCCH separately of primary/secondary carrier wave goes up the happy position.

Step 506:NodeB ignores the Happy position reporting information of terminal, terminal is not carried out any power control and/or scheduling processing and/or authorisation process.

Device embodiment

According to embodiments of the invention, a kind of resource scheduling device based on happy position is provided, this device can be used to realize the above-mentioned resource regulating method based on happy position, and this device can be arranged on network side.Fig. 6 is the structured flowchart based on the resource scheduling device of happy position according to the embodiment of the invention, and as shown in Figure 6, this device comprises: receiver module 0, and acquisition module 2, judge module 4, control module 6 is described said structure below.

Receiver module 0 is used for second information of E-DPCCH on the first information of E-DPCCH on the main carrier that receiving terminal reports and the auxilliary carrier wave; Acquisition module 2 is connected to receiver module 0, is used for obtaining the first happy position from the first information that receiver module 0 receives, and obtains the second happy position from second information that receiver module 0 receives; Judge module 4 is connected to acquisition module 2, is used to judge whether the first happy position that acquisition module 2 obtains and second happy be consistent; Control module 6 is connected to judge module 4, and the judged result that is used at judge module 4 is under the inconsistent situation, terminal is not carried out any power control and/or scheduling processing and/or authorisation process.

Fig. 7 is the concrete structure block diagram based on the resource scheduling device of happy position according to the embodiment of the invention, as shown in Figure 7, judge module 4 comprises: first judges submodule 42, the second judgement submodules 44, the 3rd judges submodule 46, below said structure is described.

First judges submodule 42, is used to judge whether the corresponding data of the data and the second happy position that the first happy position is corresponding equate, if then the first happy position is consistent with the second happy position, otherwise, the first happy position and second Happy site inconsistency.

Second judges submodule 44, be used to judge whether first happy value corresponding and second happy value corresponding all equal 1 or 0, if, then the first happy position is consistent with the second happy position, otherwise, the first happy position and second Happy site inconsistency, wherein, the state of 1 expression terminal is happy, and the state of 0 expression terminal is unhappy.

The 3rd judges submodule 46, be used to judge whether according to the first happy position and second happy mapping value that obtains be 11 or 00, if, then the first happy position is consistent with the second happy position, otherwise, the first happy position and second Happy site inconsistency, wherein, the state of 11 expression terminals is happy, and the state of 00 expression terminal is unhappy.

In sum, pass through embodiments of the invention, the inconsistent processing method in Happy position on a kind of E-DPCCH separately of up primary/secondary carrier wave is provided, by comparison to the Happy position on the E-DPCCH separately on the up primary/secondary carrier wave, NodeB utilizes this comparative result to carry out power control and scheduling of resource decision-making, optimize power control and scheduling of resource processing procedure, stipulated to handle when the inconsistent situation in Happy position takes place criterion, can not cause flow process unusual, optimize power control and scheduling of resource processing procedure, reduce cutting off rate, thereby optimize terminal and NodeB performance.

Obviously, those skilled in the art should be understood that, above-mentioned each module of the present invention or each step can realize with the general calculation device, they can concentrate on the single calculation element, perhaps be distributed on the network that a plurality of calculation element forms, alternatively, they can be realized with the executable program code of calculation element, thereby, they can be stored in the storage device and carry out by calculation element, perhaps they are made into each integrated circuit modules respectively, perhaps a plurality of modules in them or step are made into the single integrated circuit module and realize.Like this, the present invention is not restricted to any specific hardware and software combination.

The above is the preferred embodiments of the present invention only, is not limited to the present invention, and for a person skilled in the art, the present invention can have various changes and variation.Within the spirit and principles in the present invention all, any modification of being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. resource regulating method based on happy position is used for the process of transmitting of the uplink dedicated transmission channel of the enhancement mode under two carrier modes, it is characterized in that described method comprises:

Second information of E-DPCCH on the first information of E-DPCCH and the auxilliary carrier wave on the main carrier that the network side receiving terminal reports, and from the described first information, obtain the first happy position, and from described second information, obtain the described second happy position;

Described network side judges whether the described first happy position is consistent with the described second happy position, if inconsistent, then network side does not carry out any power control and/or scheduling processing and/or authorisation process to terminal.

2. method according to claim 1 is characterized in that, judges the described first happy position and described second happy consistent comprising whether:

Judge whether the corresponding data of the data and the described second happy position that the described first happy position is corresponding equate, if the then described first happy position is consistent with the described second happy position, otherwise, described first happy position and described second Happy site inconsistency.

3. method according to claim 1 is characterized in that, judges the described first happy position and described second happy consistent comprising whether:

Judge whether described first happy value corresponding and described second happy value corresponding all equal 1 or 0, if, the then described first happy position is consistent with the described second happy position, otherwise, described first happy position and described second Happy site inconsistency, wherein, the state of the described terminal of 1 expression is happy, and the state of the described terminal of 0 expression is unhappy.

4. method according to claim 1 is characterized in that, judges the described first happy position and described second happy consistent comprising whether:

Whether judgement is 00 or 11 according to the described first happy position and described second happy mapping value that obtains, if, the then described first happy position is consistent with the described second happy position, otherwise, described first happy position and described second Happy site inconsistency, wherein, the state of the described terminal of 11 expressions is happy, and the state of the described terminal of 00 expression is unhappy.

5. according to each described method in the claim 1 to 4, it is characterized in that receive at described network side before the described first information and described second information of described terminal to report, described method also comprises:

Described terminal reports the described first information on described main carrier, and on described auxilliary carrier wave, report described second information, wherein, it is happy that the happy position of happy position in the described first information and described second information all is used to indicate the state of described terminal, wherein, the described first information comprises following three information fields: strengthen the uplink form and merge indication, re-transmission sequence number and happy position, described second information comprises following three information fields: strengthen the uplink form and merge indication, re-transmission sequence number and happy position.

6. according to each described method in the claim 1 to 4, it is characterized in that receive at described network side before the described first information and described second information of described terminal to report, described method also comprises:

Described terminal reports the described first information on described main carrier, and reports described second information on described auxilliary carrier wave, and wherein, it is unhappy that the happy position of happy position in the described first information and described second information all is used to indicate the state of described terminal.

7. the resource scheduling device based on happy position is characterized in that, comprising:

Receiver module is used for second information of E-DPCCH on the first information of E-DPCCH on the main carrier that receiving terminal reports and the auxilliary carrier wave;

Acquisition module is used for obtaining the first happy position from the described first information, and obtains the described second happy position from described second information;

Judge module is used to judge whether the described first happy position is consistent with the described second happy position;

Control module, the judged result that is used at described judge module is under the inconsistent situation, terminal is not carried out any power control and/or scheduling processing and/or authorisation process.

8. device according to claim 7 is characterized in that, described judge module comprises:

First judges submodule, be used to judge whether the corresponding data of the data and the described second happy position that the described first happy position is corresponding equate, if the then described first happy position is consistent with the described second happy position, otherwise, described first happy position and described second Happy site inconsistency.

9. device according to claim 7 is characterized in that, described judge module comprises:

Second judges submodule, be used to judge whether described first happy value corresponding and described second happy value corresponding all equal 1 or 0, if, the then described first happy position is consistent with the described second happy position, otherwise, described first happy position and described second Happy site inconsistency, wherein, the state of the described terminal of 1 expression is happy, and the state of the described terminal of 0 expression is unhappy.

10. device according to claim 7 is characterized in that, described judge module comprises:

The 3rd judges submodule, be used to judge whether according to the described first happy position and described second happy mapping value that obtains be 00 or 11, if, the then described first happy position is consistent with the described second happy position, otherwise, described first happy position and described second Happy site inconsistency, wherein, the state of the described terminal of 11 expressions is happy, and the state of the described terminal of 00 expression is unhappy.

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