CN103384387B - Scheduling method for handover control and system, user terminal, the network equipment - Google Patents

Abstract

The embodiment of the invention discloses a kind of scheduling method for handover control and system, user terminal, the network equipment, one of which scheduling method for handover control includes: UE sends uplink business data by E-DCH to the network equipment, and receives the reception results messages that the network equipment returns; It is nack message in response to receiving results messages, the affirmative acknowledgement that UE controls in message with the mass measurement that the network equipment issues adds up to unit with negative response, and whether the affirmative acknowledgement that statistics currently has been received by reaches mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message; If reaching, UE initiates the measurement report message of 5B event to the network equipment, in order to the network equipment is no longer based on the UE TEBS reported and is scheduling authorizing. The embodiment of the present invention makes the network equipment of network side UE can be carried out scheduling authorization effectively and reasonably.

Description

Scheduling method for handover control and system, user terminal, the network equipment

Technical field

The present invention relates to communication technology, especially scheduling method for handover control and system, user terminal, the network equipment.

Background technology

TD SDMA (TimeDivision-SynchronousCodeDivisionMultipleAccess, hereinafter referred to as: TD-SCDMA) it is the technical standard of a kind of third generation radio communication. TD-SCDMA High Speed Uplink Packet access (HighSpeedUplinkPacketAccess, hereinafter referred to as: HSUPA) be the evolution standard of TD-SCDMA standard, also referred to as TD-HSUPA, or be directly called HSUPA.

TD-HSUPA communication protocol defines various types of communication event and trigger condition thereof and report condition, in order to network side according to subscriber equipment (UserEquipment, hereinafter referred to as: UE) reporting message of all kinds of events is chosen this UE switching Target cell. The switchover policy of current TD-SCDMA mainly includes the switchover policy based on different-frequency measure, the switchover policy based on common frequency measurement, the switchover policy based on isosystem measurement and the switchover policy based on quality. Wherein, the switchover policy based on quality is to have opened switchover policy newer in the existing network of HSUPA function at present, namely: based on the switchover policy of 5A event.

Based in the switchover policy of quality, criterion that what mass measurement that the lateral UE of network issues controlled to arrange in (MEASUREMENTCONTROL) message report be that 5A event triggers, the relevant parameter that arranges includes CRC code sum (TotalCyclicRedundancyCheck, hereinafter referred to as: TotalCRC), crc error check code sum (BadCRC) and delayed trigger duration (pendingaftertrigger). After UE receives this mass measurement control message, add up descending enhanced dedicated (EnhancedDedicatedTransportChannel, hereinafter referred to as: control the CRC mistake bag number in each the TotalCRC window arranged in message and the BadCRC value that controls to arrange in message with this mass measurement compares in mass measurement on E-DCH).If the CRC mistake bag number come out in a TotalCRC window controls the BadCRC value arranged in message more than or equal to mass measurement, then trigger 5A event, send measurement report (MEASUREMENTREPORT) message of 5A event to network side. Starting an intervalometer simultaneously and carry out timing according to the delayed trigger duration arranged in mass measurement control message, even if 5A event meets again in delayed trigger duration, UE also no longer reports the measurement report message of 5A event.

In the switchover policy of existing TD-SCDMA, UE by network side report total E-DCH buffer status (TotalE-DCHBufferStatus, hereinafter referred to as: TEBS) inform that to network side it is presently required the valid data amount size of transmission. Network side is according to the UE Serving cell reported and adjacent cell path loss information (ServingandNeighbourCellPathloss, hereinafter referred to as: SNPL), the uplink power margin of UE (UEPowerHeadroom, hereinafter referred to as: UPH) be scheduling with TEBS authorizing. TEBS is more high, represents that UE needs the valid data sent more many, and network side will distribute bigger channel resource or authorization power accordingly to UE. But, in practical application, the uplink business data block that UE sends is relatively big and Block Error Rate (BlockErrorRatio, hereinafter referred to as: time BLER) also high, showing as packet loss in core-network side, now core net will take the data of congestion control policy restriction UE side to send window size, make wireless spread-spectrum technology (RadioLinkControl, hereinafter referred to as: data sliding window RLC) slowly or does not thoroughly slide, thus causing that buffer data size reduces, namely TEBS reduces.

In the process realizing the present invention, inventor have found that prior art at least there is problems in that

In the various types of communication event of current TD-HSUPA communication protocol definition and trigger condition and report condition thereof, only this kind of reporting types of 5A affair is reported about quality of service, owing to 5A affair is that on the UE descending E-DCH received, whether the CRC mistake bag number in TotalCRC window has reached the BadCRC value that mass measurement controls to arrange in message, that is: the existing BLER situation being based only on the descending E-DCH received by UE that reports about quality of service judges to trigger, and does not but have reporting about reverse link traffic channel quality. Owing to the size of TEBS value can not reflect the uplink business data transmission quantity demand of UE completely, the situation that TEBS value is only small is there will be equally when uplink business data transmission quantity is higher but up BLER is also high, network side cannot know that the reason that TEBS value is little is the UE valid data really not needing to upload on earth, or the data sliding window of the RLC caused too much due to mistake bag slides slowly or even slides and to cause. Therefore, network side cannot know the actual uplink business data transmission quantity demand of UE according to TEBS, thus UE may carry out scheduling authorization unreasonable, even mistake based on TEBS. If scheduling authorization is too high, the waste of limited network resources can be caused; Otherwise, if scheduling authorization is too low, it is impossible to meeting the actual uplink business data transmission quantity demand of UE, the UE transmission to uplink business data being affected, thus affecting quality of service.

Summary of the invention

The embodiment of the present invention is to be solved be technical problem is that: provide one scheduling method for handover control and system, user terminal, the network equipment, so that UE can be carried out scheduling authorization effectively and reasonably by the network equipment of network side.

An aspect according to embodiments of the present invention, it is provided that one scheduling method for handover control, including:

User equipment (UE) sends uplink business data by enhanced dedicated E-DCH to the network equipment, and receives the reception results messages that the network equipment returns; Described reception results messages is used for representing whether described uplink business data is correctly received, and described reception results messages includes the affirmative acknowledgement ACK information being properly received uplink business data or the negative response nack message not being properly received uplink business data;

It is nack message in response to described reception results messages, the affirmative acknowledgement that UE controls in message with the mass measurement that the network equipment issues adds up to unit with negative response, and whether the affirmative acknowledgement that statistics currently has been received by reaches described mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message;

Reach described mass measurement in response to the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window and control the NACK number threshold value in message, UE initiates the measurement report message of 5B event to the network equipment, in order to the network equipment is no longer based on the UE total E-DCH buffer status TEBS reported and is scheduling authorizing.

Another aspect according to embodiments of the present invention, it is provided that another kind scheduling method for handover control, including:

The network equipment receives UE by the E-DCH uplink business data sent, and according to whether be properly received this uplink business data to return reception results messages to described UE; Described reception results messages includes the ACK information being properly received uplink business data or the nack message not being properly received uplink business data;

In response to receiving the UE SI reported, whether described network equipment identification receives the measurement report message of the described UE 5B event reported within the current preset measurement cycle; Described SI includes described UE UPH, SNPL and the TEBS information detected within the current detection cycle; The affirmative acknowledgement that the measurement report message of described 5B event is controlled in message with the mass measurement that the described network equipment issues by described UE adds up to unit with negative response, and the affirmative acknowledgement that statistics currently has been received by and nack message sum in negative response sum window report when reaching the NACK number threshold value in described mass measurement control message;

In response to the measurement report message receiving the described UE 5B event reported within the current preset measurement cycle, the described network equipment is no longer based on the described UE TEBS reported and is scheduling authorizing.

Another aspect according to embodiments of the present invention, it is provided that a kind of subscriber equipment, including the first Transmit-Receive Unit and analytic unit;

Described first Transmit-Receive Unit, for sending uplink business data by E-DCH to the network equipment, and receives the reception results messages that the network equipment returns; Described reception results messages is used for representing whether described uplink business data is correctly received, and described reception results messages includes the ACK information being properly received uplink business data or the nack message not being properly received uplink business data; And the statistical result according to analytic unit, reach described mass measurement in response to the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window and control the NACK number threshold value in message, the measurement report message of 5B event is initiated, in order to the network equipment is no longer based on the UE total E-DCH buffer status TEBS reported and is scheduling authorizing to the network equipment;

Described analytic unit, for being nack message in response to described reception results messages, the affirmative acknowledgement that the mass measurement issued with the network equipment controls in message adds up to unit with negative response, and whether the affirmative acknowledgement that statistics currently has been received by reaches described mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message.

Another aspect according to embodiments of the present invention, it is provided that a kind of network equipment, including:

Second Transmit-Receive Unit, for receiving UE by the E-DCH uplink business data sent, and according to whether be properly received this uplink business data to return reception results messages to described UE; And receive the UE SI reported; And receive the measurement report message of the UE 5B event reported; Described reception results messages includes the ACK information being properly received uplink business data or the nack message not being properly received uplink business data; Described SI includes described UE UPH, SNPL and the TEBS information detected within the current detection cycle; The affirmative acknowledgement that the measurement report message of described 5B event is controlled in message with the mass measurement that the described network equipment issues by described UE adds up to unit with negative response, and the affirmative acknowledgement that statistics currently has been received by and nack message sum in negative response sum window report when reaching the NACK number threshold value in described mass measurement control message;

4th recognition unit, for receiving the UE SI reported in response to the second Transmit-Receive Unit, identifies whether the second Transmit-Receive Unit receives the measurement report message of the described UE 5B event reported within the current preset measurement cycle;

Scheduling unit, for the recognition result according to the 4th recognition unit, receives the measurement report message of the described UE 5B event reported in response to the second Transmit-Receive Unit within the current preset measurement cycle, is no longer based on the described UE TEBS reported and is scheduling authorizing.

Still another aspect according to embodiments of the present invention, it is provided that one scheduling handover control system, including UE and the network equipment;

Described UE, for sending uplink business data by E-DCH to the network equipment, and receives the reception results messages that the network equipment returns; Described reception results messages is used for representing whether described uplink business data is correctly received, and described reception results messages includes the ACK information being properly received uplink business data or the nack message not being properly received uplink business data; It is nack message in response to described reception results messages, the affirmative acknowledgement that the mass measurement issued with the network equipment controls in message adds up to unit with negative response, and whether the affirmative acknowledgement that statistics currently has been received by reaches described mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message; And reach the NACK number threshold value in described mass measurement control message in response to the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window, the measurement report message of 5B event is initiated to the network equipment;

The described network equipment, for receiving UE by the E-DCH uplink business data sent, and according to whether be properly received this uplink business data to return reception results messages to described UE; In response to receiving the UE SI reported, identify the measurement report message whether receiving the described UE 5B event reported within the current preset measurement cycle; Described SI includes described UE UPH, SNPL and the TEBS information detected within the current detection cycle;And in response to receiving the measurement report message of the described UE 5B event reported within the current preset measurement cycle, be no longer based on the described UE TEBS reported and be scheduling authorizing.

The scheduling method for handover control provided based on the above embodiment of the present invention and system, user terminal, the network equipment, UE sends uplink business data by E-DCH to the network equipment, the network equipment is according to whether be properly received this uplink business data and be properly received the ACK information of uplink business data to UE return or be not properly received the nack message of uplink business data, when reception results messages is nack message, the affirmative acknowledgement that UE controls in message with the mass measurement that the network equipment issues adds up to unit with negative response, add up whether the nack message sum having been received by current affirmative acknowledgement and negative response sum window reaches the NACK number threshold value in mass measurement control message, if the nack message sum received in current affirmative acknowledgement and negative response sum window reaches mass measurement controls the NACK number threshold value in message, UE initiates the measurement report message of 5B event to the network equipment, when the network equipment receives the measurement report message of the UE 5B event sent, can know that up BLER is also higher, namely reverse link traffic channel is second-rate, now the size of TEBS value can not reflect the uplink business data transmission quantity demand of UE, the network equipment is just no longer based on the UE TEBS reported and is scheduling authorizing, so that the scheduling authorization of UE is more efficient, rationally, compared with prior art, avoid because of the too high waste causing limited network resources of scheduling authorization, and scheduling authorization is too low cannot meet the uplink business data transmission quantity factors influencing demand UE actual for the UE transmission to uplink business data, thus affecting quality of service.

Below by drawings and Examples, technical scheme is described in further detail.

Accompanying drawing explanation

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

Fig. 1 is the flow chart that the present invention dispatches one embodiment of method for handover control.

Fig. 2 is the flow chart that the present invention dispatches another embodiment of method for handover control.

Fig. 4 is the flow chart that the present invention dispatches another embodiment of method for handover control.

Fig. 5 is the flow chart that the present invention dispatches method for handover control further embodiment.

Fig. 6 is the flow chart that the present invention dispatches one Application Example of method for handover control.

Fig. 7 is the structural representation of mono-embodiment of UE of the present invention.

Fig. 8 is the structural representation of another embodiment of UE of the present invention.

Fig. 9 is the structural representation of one embodiment of inventive network equipment.

Figure 10 is the structural representation of inventive network another embodiment of equipment.

Figure 11 is the structural representation that the present invention dispatches one embodiment of handover control system.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

UE can the informing network equipment required business datum amount size sent at present by TEBS. The value of TEBS can from 0 byte (bytes) ~ 37642bytes or more. TEBS value is more high, represents that UE needs the effective traffic data sent more many. The network equipment, for instance, base station (NodeB), radio network controller (RadioNetworkController, hereinafter referred to as: RNC) etc., the bigger channel resource of UE or authorization power will be given accordingly. As shown in table 1 below, for a mapping table example of index value (Index) and the value (TEBSValue) of TEBS. In practical application, UE only need to the network equipment and sends the index of TEBS, and the network equipment, based on this index value, by the mapping table of Index and the TEBSValue of the TEBS pre-set, just can know the value of the UE TEBS sent.

One mapping table example of Index and the TEBSValue of table 1TEBS

Index	TEBS Value(bytes)
		0	TEBS=0
1	0<TEBS≤10
		2	10<TEBS≤14
3	14<TEBS≤18
		4	18<TEBS≤24
5	24<TEBS≤32
		6	32<TEBS≤42
7	42<TEBS≤55
		8	55<TEBS≤73
9	73<TEBS≤97
		10	97<TEBS≤129
11	129<TEBS≤171
		12	171<TEBS≤228
13	228<TEBS≤302
		14	302<TEBS≤401
15	401<TEBS≤533
		16	533<TEBS≤708
17	708<TEBS≤940
		18	940<TEBS≤1248
19	1248<TEBS≤1658
		20	1658<TEBS≤2202
21	2202<TEBS≤2925
		22	2925<TEBS≤3884
23	3884<TEBS≤5160
		24	5160<TEBS≤6853
25	6853<TEBS≤9103
		26	9103<TEBS≤12092

27	12092<TEBS≤16062
		28	16062<TEBS≤21335
29	21335<TEBS≤28339
		30	28339<TEBS≤37642
31	37642<TEBS

In current HSUPA communication system, only the buffer status of the effective traffic data uploaded is needed to react as UE TEBS, but the reduction never considering TEBS sometimes is not because UE does not need the business datum uploaded, but due to time the business datum block of up transmission is relatively big and BLER is also high, the data sliding window of the RLC brought is very slow or caused by thorough skid-resistant reason. And in the scheduling strategy of now widely used TD-HSUPA; the strategy authorized it is scheduling according to UE SNPL, UPH and TEBS reported; but; the actual uplink business data transmission demand of UE in fact can not be reflected completely due to TEBS; make the network equipment with reference to TEBS UE cannot be carried out rationally, efficient scheduling mandate, it will usually cause that the mandate to UE is too high or too low. If scheduling authorization is too high, the waste of limited network resources can be caused; Otherwise, if scheduling authorization is too low, it is impossible to meeting the actual uplink business data transmission quantity demand of UE, the UE transmission to uplink business data being affected, thus affecting quality of service.

Fig. 1 is the flow chart that the present invention dispatches one embodiment of method for handover control. As it is shown in figure 1, the scheduling method for handover control of this embodiment includes:

101, UE send uplink business data by E-DCH to the network equipment, and receive the reception results messages that the network equipment returns.

Reception results messages therein is used for representing whether uplink business data is correctly received, specifically include and represent the affirmative acknowledgement (Acknowledgement being properly received uplink business data, hereinafter referred to as: ACK) information or be not properly received the negative response of uplink business data (NegativeAcknowledgement, hereinafter referred to as NACK) information.

103, it is nack message in response to receiving results messages, the affirmative acknowledgement that UE controls in message with the mass measurement that the network equipment issues adds up to unit with negative response, and whether the affirmative acknowledgement that statistics currently has been received by reaches this mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message.

Wherein, each affirmative acknowledgement that mass measurement controls in message is considered as a current affirmative acknowledgement and negative response sum window with negative response sum.

105, reach mass measurement in response to the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window and control the NACK number threshold value in message, UE initiates the measurement report message of 5B event to the network equipment, default NACK number threshold value is exceeded with the nack message sum in negative response sum window, in order to the network equipment is no longer based on the UE TEBS reported and is scheduling authorizing with the current affirmative acknowledgement of informing network equipment.

In the scheduling method for handover control that the above embodiment of the present invention provides, UE sends uplink business data by E-DCH to the network equipment, when the network equipment is nack message for the reception results messages that this uplink business data returns, the affirmative acknowledgement that the mass measurement issued with the network equipment controls in message adds up to unit with negative response, whether the affirmative acknowledgement that statistics currently has been received by reaches mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message, if the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window reach mass measurement controls the NACK number threshold value in message, the measurement report message of 5B event is initiated to the network equipment, also higher with the up BLER of informing network equipment, namely reverse link traffic channel is second-rate, now the size of TEBS value can not reflect the uplink business data transmission quantity demand of UE, it is scheduling authorizing so that the network equipment is just no longer based on the UE TEBS reported, so that the scheduling authorization of UE is more efficient, rationally, avoid in prior art because of the too high waste causing limited network resources of scheduling authorization, and scheduling authorization is too low cannot meet the uplink business data transmission quantity factors influencing demand UE actual for the UE transmission to uplink business data, thus affecting quality of service.

Fig. 2 is the flow chart that the present invention dispatches another embodiment of method for handover control. As in figure 2 it is shown, the scheduling method for handover control of this embodiment includes:

201, UE send uplink business data by E-DCH to the network equipment, and receive the reception results messages that the network equipment returns.

Reception results messages therein is used for representing whether uplink business data is correctly received, and specifically includes expression and is properly received the ACK information of uplink business data or is not properly received the nack message of uplink business data.

203, UE identify whether the reception results messages received is nack message. If reception results messages is nack message, perform the operation of 205. Otherwise, if reception results messages is ACK information, not performing the follow-up flow process of the present embodiment, alternatively, UE can transmit next block business datum to the network equipment.

205, the affirmative acknowledgement that UE controls in message with the mass measurement that the network equipment is sent out adds up to unit with negative response, and whether the affirmative acknowledgement that statistics currently has been received by reaches this mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message. If the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window reach mass measurement controls the NACK number threshold value in message, perform the operation of 207. Otherwise, the follow-up flow process of the present embodiment is not performed.

207, UE identify the measurement report message whether initiating 5B event in this business. If UE not yet initiated the measurement report message of 5B event in this business, perform the operation of 209. Otherwise, if UE had initiated the measurement report message of 5B event in this business, the operation of 211 is performed.

209, UE initiate the operation of measurement report message of 5B event to the network equipment, and start the delayed trigger duration that an intervalometer controls to arrange in message according to mass measurement and carry out timing.

Afterwards, the follow-up flow process of the present embodiment is no longer performed.

Whether the interval of the measurement report message that 211, UE decipherment distances initiated 5B event last time reaches delayed trigger duration. If the interval that distance initiated the measurement report message of 5B event last time reaches delayed trigger duration, perform the operation of 213. Otherwise, if distance initiated the interval of the measurement report message of 5B event last time not up to delayed trigger duration, the follow-up flow process of the present embodiment is not performed, it may be assumed that do not initiate the measurement report message of 5B event to the network equipment.

213, UE initiate the measurement report message of 5B event to the network equipment, in order to the network equipment is no longer based on the UE TEBS reported and is scheduling authorizing, and starts intervalometer and again carry out timing according to delayed trigger duration.

As it is shown on figure 3, report principle schematic in the embodiment of the present invention one of the measurement report message of 5B event. Wherein, if the criterion that reports that the mass measurement that the network equipment issues controls to arrange in message is that 5B event triggers, mass measurement controls to be additionally provided with in message the relevant parameter information of 5B reporting events, including: affirmative acknowledgement and negative response sum (TotalACKandNACK), NACK number threshold value (NACKnum) and delayed trigger duration (pendingaftertrigger). When the nack message number carried during UE receives is more than NACK number threshold value, meet 5B reporting events condition. Nack message sum in each TotalACKandNACK window that statistics is received by UE on the e-hich, and compare with the NACKnum in mass measurement control message, once the nack message sum come out is more than or equal to NACKnum, then trigger 5B reporting events (report), to the network equipment, such as, RNC, BS, send the measurement report message of 5B event. Starting an intervalometer, even if again meeting 5B reporting events condition within the pendingaftertrigger time, UE also no longer triggers 5B reporting events (Noreport) simultaneously.

Owing to the scheduling authorization of UE is existed certain cycle by the network equipment, control 5B reporting events unnecessary for UE by arranging delayed trigger duration, it is possible to avoid the power consumption thus UE brought to reduce with performance, and save Internet resources.

An example according to the present invention and unrestricted, UE can report Serving cell and adjacent cell path loss (ServingandNeighbourCellPathloss when carrying out HSUPA business application to network equipment transmission business request information by schedule information (SI), hereinafter referred to as: SNPL), the dump power of UE (UEPowerHeadroom, hereinafter referred to as: UPH) with TEBS information. Additionally, in the scheduling method for handover control flow process of the various embodiments described above, UE can also with default measurement cycle detection UPH, SNPL and TEBS information, and to network equipment SI reporting, this SI includes UPH, SNPL and the TEBS information detected within the current detection cycle, in order to UE is scheduling authorizing by the network equipment with reference to the information in SI. The TEBS information that UE reports can be the index information of TEBS, it is also possible to is the value information of TEBS.

Specifically, UE includes two types by the SI SNPL information reported, and concrete which kind of type of employing reports SNPL information can be preset with the network equipment by UE, and both types is as follows corresponding to two kinds of computational methods:

$\mathrm{\Φ}=\frac{1}{\underset{n=1}{\overset{N}{\mathrm{\Σ}}}{L}_{\mathrm{serv}}/L_n}$ { the first reporting types of SNPL information }

$\mathrm{\Φ}=\frac{\underset{n=1..N}{\min }\left(L_n\right)}{L_{\mathrm{serv}}}$ { the second reporting types of SNPL information }

Wherein, Lserv is Serving cell path loss meansigma methods in a preset time period, the circuit loss value of N number of adjacent cell that L1, L2 ..., LN respectively UE monitors, and N is the integer more than 0.

In practical application, when UE reports SNPL information by SI, can only report the index value of SNPL, the network equipment is based on this index value, by the mapping table between the Index of the SNPL pre-set and Q-value, just can know the Q-value that the index value of the UE SNPL reported is corresponding, be based further on Q=10*log10 (Φ) and just can know Φ value. As shown in table 2 below, for a mapping table example of Index and the Q-value of SNPL.

The Index of table 2SNPL and Q-value mapping table example

Q=10*log10(Φ)	SNPL index
		Q<-10	0
-10≤Q<-8	1
		-8≤Q<-6	2
-6≤Q<-5	3
		-5≤Q<-4	4
-4≤Q<-3	5
		-3≤Q<-2	6
-2≤Q<-1	7
		-1≤Q<0	8
0≤Q<1	9
		1≤Q<2	10
2≤Q<3	11
		3≤Q<4	12
4≤Q<5	13
		5≤Q<6	14
6≤Q<7	15

7≤Q<8	16
		8≤Q<9	17 8 -->
9≤Q<10	18
		10≤Q<11	19
11≤Q<12	20
		12≤Q<13	21
13≤Q<14	22
		14≤Q<15	23
15≤Q<16	24
		16≤Q<17	25
17≤Q<18	26
		18≤Q<20	27
20≤Q<22	28
		22≤Q<24	29
24≤Q<26	30
		26≤Q	31

UE reports SNPL and periodically reports SNPL information according to default measurement cycle detection when carrying out HSUPA business application, the network equipment just can control the scheduling authorization to UE based on this SNPL information, thus effectively controlling reverse link traffic channel Serving cell and adjacent cell are received total bandwidth power (Receivedtotalwidebandpower, hereinafter referred to as: lifting RTWP), report UPH with SNPL simultaneously, ratio (the RaiseoverTerminal of the total received power that the network equipment just can bring to community based on UPH and SNPL information quick control up-high speed service channel power and noise power, hereinafter referred to as: lifting ROT).

Fig. 4 is the flow chart that the present invention dispatches another embodiment of method for handover control. As shown in Figure 4, the scheduling method for handover control of this embodiment includes:

301, the network equipment receives UE by the E-DCH uplink business data sent, and according to whether is properly received this uplink business data to return reception results messages to UE. Reception results messages therein is used for representing whether uplink business data is correctly received, and specifically includes expression and is properly received the ACK information of uplink business data or is not properly received the nack message of uplink business data.

303, in response to receiving the UE SI reported, whether network equipment identification receives the measurement report message of the UE 5B event reported within the current preset measurement cycle.

SI therein includes UE UPH, SNPL and the TEBS information detected within the current detection cycle.

The affirmative acknowledgement that the measurement report message of 5B event is controlled in message with the mass measurement that the network equipment issues by UE adds up to unit with negative response, and the affirmative acknowledgement that statistics currently has been received by and nack message sum in negative response sum window report when reaching the NACK number threshold value in mass measurement control message.

305, in response to the measurement report message receiving the UE 5B event reported within the current preset measurement cycle, the network equipment is no longer based on the UE TEBS reported and is scheduling authorizing.

Such as, the network equipment can based on UPH and the SNPL information in SI, and this uplink service is transferred mandate by and the service quality of this business (QoS) information.

Based on the scheduling method for handover control that the above embodiment of the present invention provides, the network equipment can according to whether be properly received this uplink business data and be properly received the ACK information of uplink business data to UE return or be properly received the nack message of uplink business data, and when receiving the UE SI reported, identify whether to receive the measurement report message of the UE 5B event sent, if receiving the measurement report message of the UE 5B event sent, can know that up BLER is also higher, namely reverse link traffic channel is second-rate, now the size of TEBS value can not reflect the uplink business data transmission quantity demand of UE, now, the network equipment is just no longer based on the UE TEBS reported and is scheduling authorizing, so that the scheduling authorization of UE is more efficient, rationally, compared with prior art, avoid because of the too high waste causing limited network resources of scheduling authorization, and scheduling authorization is too low cannot meet the uplink business data transmission quantity factors influencing demand UE actual for the UE transmission to uplink business data, thus affecting quality of service.

Fig. 5 is the flow chart that the present invention dispatches method for handover control further embodiment. As it is shown in figure 5, the scheduling method for handover control of this embodiment includes:

401, the network equipment, in response to receiving the UE business request information sent, generates and issues mass measurement control message to UE. This mass measurement controls message and includes uplink transmission channels mark (ID), affirmative acknowledgement and negative response sum, NACK number threshold value and delayed trigger duration information.

An example according to embodiments of the present invention and unrestricted, when the network equipment generates mass measurement control message, specifically according to the type of service in business request information, the correspondence relationship information between the type of service prestored and QoS can obtain the QoS information that this business is corresponding; And set affirmative acknowledgement and negative response sum, NACK number threshold value according to the QoS information that this business is corresponding, and according to scheduling authorization frequency setting delayed trigger duration.

According to scheduling authorization frequency setting delayed trigger duration, both made the network equipment can according to whether the measurement report message that receives the UE 5B event reported determines whether to be scheduling authorizing to UE based on TEBS in current scheduling authorization cycles, it is also possible to avoid the measurement report message repeatedly reporting 5B event unnecessary in current scheduling authorization cycles for UE affect the service behaviour of UE and the network equipment and unnecessary take Internet resources.

Owing to different service types is different to the requirement of Qos, namely different types of service is to BLER and data transmission delay require it is different. Therefore, the embodiment of the present invention is when considering the value of BLER threshold value, arrange according to its type of service feature, such as, Qos according to uplink service set the threshold range of BLER as (0～30%], and the threshold range according to this BLER sets affirmative acknowledgement and negative response sum, NACK number threshold value. Such as, file transfer protocol (FTP) (FileTransferProtocol, hereinafter referred to as: FTP) upload the business of business, Email (email) type of service, the requirement of QoS is higher, BLER is required very strict, therefore can choose less BLER threshold value.

Often be there is discontinuous situation by the network equipment in the scheduling authorization of UE, particularly in user many time, the network equipment would generally take frame divide the mode of multiplexing UE is scheduling authorize. If the network equipment for scheduling authorization cycle of the E-DCH of certain UE be 4 subframe scheduling mandates once, consider to save power consumption, many UE are ensureing that it meets on the basis with frequency different-frequency measure performance, just do not carry out the detection of SNPL when SNPL need not be reported as far as possible, and the scheduling authorization cycle can affect the frequency that reports of SI, also just have impact on the SNPL of UE and detect number of times, therefore, a concrete example according to the present invention and unrestricted, when conducting frame divides multiplexing, the value of delayed trigger duration can arrange smaller.

403, the network equipment receives UE by the E-DCH uplink business data sent, and according to whether is properly received this uplink business data to return reception results messages to UE. Reception results messages therein is used for representing whether uplink business data is correctly received, and specifically includes expression and is properly received the ACK information of uplink business data or is not properly received the nack message of uplink business data.

405, in response to receiving the UE SI reported, network equipment identification is after UE is successfully established HSUPA business, if this UE has carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration.SI therein includes UE UPH, SNPL and the TEBS information detected within the current detection cycle.

Specifically, it is possible to the configuration parameter information that this UE is issued according to storage, identify whether this UE has carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration.

If described UE not carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, it is possible to knowing that this UE Serving cell being currently located is for isolated community, SNPL value therein is less, for instance, the index value of SNPL is constantly equal to 9, performs the operation of 407. Otherwise, if described UE having been carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, the operation of 411 is performed.

407, whether the UPH value in the SI that network equipment identification UE reports is more than default UPH threshold value. If the UPH value in the SI that UE reports is more than default UPH threshold value, perform the operation of 413. Otherwise, if the UPH value in the SI that reports of UE is less than or equal to default UPH threshold value, the operation of 411 is performed.

409, whether the UPH value in network equipment identification SI is more than default UPH threshold value, and whether the SNPL in SI is more than default SNPL threshold value.

A concrete example according to embodiments of the present invention and unrestricted, the span presetting UPH threshold value can be 0～5dB, and presetting SNPL threshold value can be the span represented with index value 0～9.

If the UPH value in SI is more than default UPH threshold value, and the SNPL in SI is more than default SNPL threshold value, performs the operation of 413. Otherwise, if the UPH value in SI is less than or equal to default UPH threshold value, and/or the SNPL in SI is less than or equal to default SNPL threshold value, performs the operation of 411.

411, UE is carried out minimum power mandate by the network equipment so that the power licensing to UE only supports UE SI reporting or business datum sizable with SI.

A concrete example according to embodiments of the present invention and unrestricted, the absolute License Value licensing to the power of UE can be-11dB, its SI bag that can support to send 23bit.

Afterwards, the follow-up flow process of the present embodiment is no longer performed.

413, whether network equipment identification receives the measurement report message of the UE 5B event reported within the current preset measurement cycle.

Wherein, the affirmative acknowledgement that the measurement report message of this 5B event is controlled in message with the mass measurement that the network equipment issues by UE adds up to unit with negative response, and the affirmative acknowledgement that statistics currently has been received by and nack message sum in negative response sum window report when reaching the NACK number threshold value in mass measurement control message.

In response to the measurement report message receiving the UE 5B event reported within the current preset measurement cycle, perform the operation of 415. Otherwise, in response to the measurement report message not receiving the UE 5B event reported within the current preset measurement cycle, the operation of 413 is performed.

415, the network equipment is based on UPH and the SNPL information in SI, and the QoS information of this business, this uplink service is transferred mandate, give to maintain UE and normally send the channel resource needed for uplink business data and power resource mandate, and send absolute grant information to UE, including the physical resource that authorization power value uses with transmission uplink business data.

Afterwards, the follow-up flow process of the present embodiment is no longer performed.

417, the network equipment is based on UPH, SNPL and the TEBS information in SI, and the QoS information of this business, this business is transferred mandate, give to maintain UE and normally send the channel resource needed for uplink business data and power resource mandate, and send absolute grant information to UE, including the physical resource that authorization power value uses with transmission uplink business data.

In prior art, UE passes through E-DCH Stochastic accessing ascending control channel (E-DCHRandomAccessUplinkControlChannel, hereinafter referred to as: after E-RUCCH) sending SI to the network equipment, open an intervalometer and carry out timing according to preset period of time T-RUCCH, if not receiving the scheduling authorization of the network equipment in preset period of time T-RUCCH, UE needs to send SI again by E-RUCCH to the network equipment, if UE has sent NRUCCH SI all without the scheduling authorization receiving the network equipment, UE needs to initiate cell update (cellupdate) process that reason (cause) is Radio Link Failure (radiolinkfailure), cause UE up-high speed business set up or in the process of carrying out excessively frequently and the cell updating course that there is no need, have a strong impact on quality of service, and can seriously improve cutting off rate.

In the flow process of the above-mentioned embodiment illustrated in fig. 5 of the present invention, when the network equipment receives the UE SI sent, by whether this UE has been carried out co-frequency neighbor cell with whether the parameter configuration identification UE Serving cell being currently located in iso-frequency adjacent community is isolated community, if this UE not carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, can know that the UE Serving cell being currently located is for isolated community, corresponding SNPL value is likely to less, such as, the index value of SNPL is constantly equal to 9, now, if the UPH value that UE reports is not more than default UPH threshold value, can know that this UE is positioned at cell edge, signal quality is poor, if this UE having been carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, can know that the Serving cell at this UE place has neighbor cell, if SNPL or UPH that UE reports is less than predetermined threshold value, it is possible to knowing that UE has been positioned at cell edge, signal quality is poor. now, the mandate to UE is still maintained so that it is SI information can be sent, and then maintain continuing of HSUPA business, and avoid causing that UE initiates cell update, service disconnection owing to UE not being scheduling for a long time mandate, thus improve quality of service, it is to avoid cutting off rate.

An example of method for handover control is dispatched and unrestricted according to the present invention, in embodiment shown in Fig. 1 and Fig. 2, UE can also receive the mass measurement that in operation 401, the network equipment issues and control message, and this mass measurement controls message and includes the uplink transmission channels mark for identifying E-DCH, affirmative acknowledgement and negative response sum, NACK number threshold value and delayed trigger duration information. In operation 403, the network equipment specifically can return reception results messages by the E-HICH that uplink transmission channels identifies to UE. Correspondingly, in embodiment shown in Fig. 1 and Fig. 2, UE specifically receives the hybrid automatic repeat-request of the E-DCH that the network equipment is identified by uplink transmission channels and confirms instruction channel (E-DCHHARQAcknowledgementIndicatorChannel, hereinafter referred to as the reception results messages that E-HICH) returns. Exemplarily, in embodiment shown in Fig. 1 and Fig. 2, UE initiates to the network equipment before the measurement report message of 5B event, it is also based in the affirmative acknowledgement that has been received by and negative response window nack message sum and the ratio of the corresponding affirmative acknowledgement having been received by with negative response sum obtains the block error rate BLER information of the E-DCH that uplink transmission channels identifies, and include the BLER information of uplink transmission channels mark and E-DCH in the measurement report message of the 5B event being sent to the network equipment.

Dispatch another specific embodiment of method for handover control according to the present invention, the network equipment can control to carry in message the relevant parameter information of 5B reporting events in the mass measurement that the mass measurement measuring control (measurecontrol) message controls to issue in (Qualitymeasurementcontrol) message. As shown in table 3 below, the mass measurement controlling message of measuring issued for the network equipment in the embodiment of the present invention controls a structure example of message.

Table 3 mass measurement controls a structure example of message

In above-mentioned table 3, quality uploading quantity (Qualityreportingquantity) that italics part represents, to select to report standard (CHOICEreportcriteria) and mass measurement report condition (Qualitymeasurementreportingcriteria) information unit be that the embodiment of the present invention additionally increases relative to existing communication standard. Wherein, mass measurement report condition carries the relevant parameter information of 5B reporting events, including affirmative acknowledgement and negative response sum, NACK number threshold value, delayed trigger duration information, also carry uplink transmission channels mark. As shown in table 4 below, for a structure example of mass measurement report condition information unit in the embodiment of the present invention.

One structure example of table 4 mass measurement report condition information unit

Another example of method for handover control is dispatched and unrestricted according to the present invention, the network equipment is handed down to the mass measurement of UE and controls can also to include in message hybrid automatic repeat-request (HybridAutomaticRepeatRequest, hereinafter referred to as HARQ) process identification (PID) (ID). As shown in Table 4 above, HARQ process ID can have multiple, if being the multiple HARQ process ID of continuous print, exemplarily, in table 4 " 1to<maxProcessNum>" represent from the 1 continuous multiple HARQ process IDs represented to maximum process number (maxProcessNum). If HARQprocessID does not configure, then can according to the BLER presetting the acquiescence all HARQ processes of measurement. Correspondingly, in the operation 203 of the embodiment shown in Fig. 2, UE specifically identifies and receives whether the reception results messages that in results messages, HARQ process identification (PID) is corresponding is NACK message; Being nack message in response to the reception results messages that HARQ process identification (PID) is corresponding, UE is respectively directed to each HARQ process that HARQ process identification (PID) identifies, and starts to perform the operation of 205. Correspondingly, UE is sent in the measurement report message of 5B event of the network equipment, and the BLER information of E-DCH specifically includes the BLER information of each HARQ process identification (PID) in HARQ process identification (PID) and correspondence thereof.

As shown in table 5 below, for a content example of quality uploading quantity information unit in table 3.

One content example of table 5 quality uploading quantity information unit

In above-mentioned table 5, Boolean is boolean (BOOL) type parameter, and its value only has two kinds of situations of zero-sum non-zero, if value non-zero namely TRUE, represents and needs to report the BLER information (TRUEmeansreportrequested) of E-DCH. Otherwise, if value is zero, the BLER information of E-DCH need not be reported, and the object of statistics of its BLER is one or more HARQ process independent. In table 5, TransportchannelsforBLERreporting information unit mark needs the HARQ process number carrying out the E-DCH of BLER statistical test. If TransportchannelsforBLERreporting information unit is configured without, then can according to the BLER pre-setting the acquiescence all HARQ processes of measurement.

Dispatching another example of method for handover control according to the present invention and unrestricted, the network equipment is handed down to the mass measurement of UE and controls can also include in message the format information of the measurement report message of 5B event. Correspondingly, UE to the network equipment initiate the measurement report message of 5B event time, the measurement report message of the form generation 5B event specifically specify according to format information, and be sent to the network equipment. CHOICEreportcriteria information unit in table 3 represents the format information of the measurement report message of 5B event. As shown in table 6 below, for the particular content example of the measurement report message of the 5B event generating according to the form specified according to format information and reporting of UE in the embodiment of the present invention.

The particular content example of the measurement report message of 6 one 5B events of table

Fig. 6 is the flow chart that the present invention dispatches one Application Example of method for handover control. As shown in Figure 6, this Application Example includes below scheme:

501, when UE needs to set up HSUPA business, send business request information by E-DCH to the network equipment, including the type of service of this business that request is set up, and send SI to the network equipment for the first time by E-RUCCH, including SNPL, UPH and TEBS information; Further, in follow-up flow process, with default measurement cycle detection UPH, SNPL and TEBS, and by E-RUCCH to network equipment SI reporting, this SI includes the UPH, SNPL and the TEBS that detect at current measurement cycle.

503, the network equipment is in response to receiving the UE business request information sent, the QoS information that this business is corresponding is obtained by the correspondence relationship information between the type of service prestored and QoS, based on UPH, SNPL and the TEBS information in the UE SI sent for the first time, and the QoS information that the type of service of this business is corresponding, this business is transferred mandate; And, according to the type of service in business request information, the QoS information that this business is corresponding is obtained by the correspondence relationship information between the type of service prestored and QoS, affirmative acknowledgement and negative response sum, NACK number threshold value is set according to the QoS information that this business is corresponding, and according to scheduling authorization frequency setting delayed trigger duration, generate and issue mass measurement control message to UE. Mass measurement therein controls message and includes uplink transmission channels ID, affirmative acknowledgement and negative response sum, NACK number threshold value and delayed trigger duration information.

The network equipment, in response to the subsequently received UE SI according to default measurement periodic report, performs the operation of 521.

The authorization power of 505, UE equipment Network Based, sends uplink business data by E-DCH to the network equipment.

507, the network equipment, according to whether be properly received the UE uplink business data sent, return to UE and receives results messages. Reception results messages therein is used for representing whether uplink business data is correctly received, and specifically includes expression and is properly received the ACK information of uplink business data or is not properly received the nack message of uplink business data.

509, UE identify whether the reception results messages received is nack message. If reception results messages is nack message, perform the operation of 511.

Otherwise, if reception results messages is ACK information, the follow-up flow process of the present embodiment is not performed. Alternatively, UE can transmit next block uplink business data to the network equipment, and for this next block uplink business data, performs the operation of 507.

511, the affirmative acknowledgement that UE controls in message with the mass measurement that the network equipment is sent out adds up to unit with negative response, and whether the affirmative acknowledgement that statistics currently has been received by reaches this mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message.If the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window reach mass measurement controls the NACK number threshold value in message, perform the operation of 513. Otherwise, the follow-up flow process of the present embodiment is not performed.

513, UE identify the measurement report message whether initiating 5B event in this business. If UE not yet initiated the measurement report message of 5B event in this business, perform the operation of 515. Otherwise, if UE had initiated the measurement report message of 5B event in this business, the operation of 517 is performed.

515, UE initiate the operation of measurement report message of 5B event to the network equipment, and start the delayed trigger duration that an intervalometer controls to arrange in message according to mass measurement and carry out timing.

Afterwards, the operation of 521 is performed.

Whether the interval of the measurement report message that 517, UE decipherment distances initiated 5B event last time reaches delayed trigger duration. If the interval that distance initiated the measurement report message of 5B event last time reaches delayed trigger duration, perform the operation of 519. Otherwise, if distance initiated the interval of the measurement report message of 5B event last time not up to delayed trigger duration, the follow-up flow process of the present embodiment is not performed, it may be assumed that do not initiate the measurement report message of 5B event to the network equipment.

519, UE initiate the measurement report message of 5B event to the network equipment, and start intervalometer and again carry out timing according to delayed trigger duration.

521, for the UE SI with default measurement periodic report, whether the UPH value in network equipment identification SI is more than default UPH threshold value, and whether the SNPL in SI is more than default SNPL threshold value. SI therein includes UE UPH, SNPL and the TEBS information detected within the current detection cycle.

If the UPH value in SI is more than default UPH threshold value, and the SNPL in SI is more than default SNPL threshold value, performs the operation of 525. Otherwise, if the UPH value in SI is less than or equal to default UPH threshold value, and/or the SNPL in SI is less than or equal to default SNPL threshold value, performs the operation of 523.

523, UE is carried out minimum power mandate by the network equipment so that the power licensing to UE only supports UE SI reporting or business datum sizable with SI, in order to the periodic SI reporting of UE.

Afterwards, the operation of 521 is performed.

525, whether network equipment identification receives the measurement report message of the UE 5B event reported within the current preset measurement cycle.

If receiving the measurement report message of the UE 5B event reported within the current preset measurement cycle, perform the operation of 527. Otherwise, if current preset does not receive the measurement report message of the UE 5B event reported in the measurement cycle, the operation of 529 is performed.

527, the network equipment is based on UPH, SNPL and the TEBS information in SI, and the QoS information of this business, and this business is transferred mandate.

Perform the operation of 505 afterwards.

529, the network equipment is based on UPH and the SNPL information in SI, and the QoS information of this business, and is no longer based on TEBS information, and this uplink service is transferred mandate.

Perform the operation of 505 afterwards.

In above-mentioned Application Example shown in Fig. 6, operation 505～519 can perform according to the default measurement cycle respectively with operation 521～529.

Fig. 7 is the structural representation of mono-embodiment of UE of the present invention. The UE of this embodiment can be used for each flow process dispatching method for handover control realizing being performed by UE in the above embodiment of the present invention.As it is shown in fig. 7, it includes the first Transmit-Receive Unit 601 and analytic unit 603.

Wherein, first Transmit-Receive Unit 601, for sending uplink business data by E-DCH to the network equipment, and receive the reception results messages that the network equipment returns, reception results messages therein is used for representing whether uplink business data is correctly received, including representing the ACK information being properly received uplink business data or the nack message not being properly received uplink business data; And the statistical result according to analytic unit 603, reach mass measurement in response to the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window and control the NACK number threshold value in message, the measurement report message of 5B event is initiated, in order to the network equipment is no longer based on the UE total E-DCH buffer status TEBS reported and is scheduling authorizing to the network equipment.

Analytic unit 603, reception results messages for receiving in response to the first Transmit-Receive Unit 601 is nack message, the affirmative acknowledgement that the mass measurement issued with the network equipment controls in message adds up to unit with negative response, and whether the affirmative acknowledgement that statistics currently has been received by reaches mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message.

The UE that the above embodiment of the present invention provides, uplink business data can be sent to the network equipment by E-DCH, when the network equipment is nack message for the reception results messages that this uplink business data returns, the affirmative acknowledgement that the mass measurement issued with the network equipment controls in message adds up to unit with negative response, whether the affirmative acknowledgement that statistics currently has been received by reaches mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message, if the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window reach mass measurement controls the NACK number threshold value in message, the measurement report message of 5B event is initiated to the network equipment, also higher with the up BLER of informing network equipment, namely reverse link traffic channel is second-rate, now the size of TEBS value can not reflect the uplink business data transmission quantity demand of UE, it is scheduling authorizing so that the network equipment is just no longer based on the UE TEBS reported, so that the scheduling authorization of UE is more efficient, rationally, avoid in prior art because of the too high waste causing limited network resources of scheduling authorization, and scheduling authorization is too low cannot meet the uplink business data transmission quantity factors influencing demand UE actual for the UE transmission to uplink business data, thus affecting quality of service.

Fig. 8 is the structural representation of another embodiment of UE of the present invention. The UE of this embodiment can be used for realizing the flow process of scheduling method for handover control embodiment shown in Fig. 2. As shown in Figure 8, compared with the embodiment shown in Fig. 7, the UE of this embodiment also includes the first recognition unit 605 and the second recognition unit 607.

Wherein, first recognition unit 605, for the statistical result according to analytic unit 603, reach mass measurement in response to the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window and control the NACK number threshold value in message, identify whether the first Transmit-Receive Unit 601 initiated the measurement report message of 5B event in this business.

Second recognition unit 607, for the recognition result according to the first recognition unit 605, if UE had initiated the measurement report message of 5B event in this business, then decipherment distance was initiated the interval of the measurement report message of 5B event last time and whether is reached delayed trigger duration.

Correspondingly, first Transmit-Receive Unit 601 is with specific reference to the recognition result of the first recognition unit 605, if UE not yet initiated the measurement report message of 5B event in this business, initiate the operation of measurement report message of 5B event to the network equipment, and start the delayed trigger duration that an intervalometer controls to arrange in message according to mass measurement and carry out timing; And the recognition result according to the second recognition unit 607, delayed trigger duration is reached in response to the interval apart from the measurement report message initiating 5B event last time, initiate the measurement report message of 5B event to the network equipment, and start intervalometer and again carry out timing according to delayed trigger duration; Initiate the interval of measurement report message of 5B event last time in response to distance not up to delayed trigger duration, do not initiate the measurement report message of 5B event to the network equipment.

An example according to UE embodiment of the present invention and unrestricted, in the UE of above-described embodiment, first Transmit-Receive Unit 601 can be also used for receiving the mass measurement control message that the network equipment issues, and this mass measurement controls message and includes the uplink transmission channels mark for identifying E-DCH, affirmative acknowledgement and negative response sum, NACK number threshold value and delayed trigger duration information. Correspondingly, the first Transmit-Receive Unit 601 specifically receives the network equipment by the E-HICH that uplink transmission channels the identifies reception results messages returned; The measurement report message of 5B event therein includes the BLER information of the E-DCH that uplink transmission channels mark gets with acquiring unit 609. Referring back to Fig. 8, in another embodiment of UE of the present invention, acquiring unit 609 can also be included, obtain the BLER information of E-DCH for the affirmative acknowledgement having been received by based on the first Transmit-Receive Unit 601 to the ratio of nack message sum and the corresponding affirmative acknowledgement having been received by and negative response sum in negative response sum window.

Another example according to UE embodiment of the present invention and unrestricted, with above-mentioned scheduling method for handover control embodiment flow process correspondingly, the mass measurement that the first Transmit-Receive Unit 601 receives controls to include HARQ process identification (PID) in message. Correspondingly, in the measurement report message of 5B event, the BLER information of E-DCH includes the BLER information of each HARQ process identification (PID) in HARQ process identification (PID) and correspondence thereof. Referring back to Fig. 8, in the further embodiment of UE of the present invention, it is also possible to include the 3rd recognition unit 611, for identifying whether the reception results messages that in the reception results messages that the first Transmit-Receive Unit 601 receives, HARQ process identification (PID) is corresponding is NACK message. Analytic unit 603 is with specific reference to the recognition result of the 3rd recognition unit 611, it is nack message in response to the reception results messages that HARQ process identification (PID) is corresponding, it is respectively directed to each HARQ process that HARQ process identification (PID) identifies, performing the affirmative acknowledgement so that the mass measurement that the network equipment issues controls in message and add up to unit with negative response, whether the affirmative acknowledgement that statistics currently has been received by reaches mass measurement with nack message sum in negative response sum window controls the operation of the NACK number threshold value in message.

Another example according to UE embodiment of the present invention and unrestricted, with above-mentioned scheduling method for handover control embodiment flow process correspondingly, in the UE of the various embodiments described above of the present invention, the mass measurement that the first Transmit-Receive Unit 601 receives controls can also include in message the format information of the measurement report message of 5B event. Correspondingly, the first Transmit-Receive Unit 601 specifically initiates the measurement report message of the 5B event generated according to the form that format information specifies to the network equipment.

Referring back to Fig. 8, in a still further embodiment of UE of the present invention, it is also possible to include detection unit 613, for default measurement cycle detection UPH, SNPL and TEBS information. Correspondingly, the first Transmit-Receive Unit 601 is additionally operable to network equipment SI reporting, and this SI includes UPH, SNPL and the TEBS information that detection unit 613 detects within the current detection cycle.

Fig. 9 is the structural representation of one embodiment of inventive network equipment. The network equipment of this embodiment can be used for each flow process dispatching method for handover control realizing being performed by the network equipment in the above embodiment of the present invention. As shown in fig. 9, it includes the second Transmit-Receive Unit the 701, the 4th recognition unit 703 and scheduling unit 705.

Wherein, the second Transmit-Receive Unit 701, for receiving UE by the E-DCH uplink business data sent, and according to whether be properly received this uplink business data to return reception results messages to UE; And receive the UE SI reported; And receive the measurement report message of the UE 5B event reported. Reception results messages therein includes representing the ACK information being properly received uplink business data or the nack message not being properly received uplink business data; SI includes UE UPH, SNPL and the TEBS information detected within the current detection cycle; The affirmative acknowledgement that the measurement report message of 5B event is controlled in message with the mass measurement that the network equipment issues by UE adds up to unit with negative response, and the affirmative acknowledgement that statistics currently has been received by and nack message sum in negative response sum window report when reaching the NACK number threshold value in mass measurement control message.

4th recognition unit 703, for receiving the UE SI reported in response to the second Transmit-Receive Unit 701, identifies whether the second Transmit-Receive Unit 701 receives the measurement report message of the UE 5B event reported within the current preset measurement cycle.

Scheduling unit 705, for the recognition result according to the 4th recognition unit 703, receives the measurement report message of the UE 5B event reported in response to the second Transmit-Receive Unit 701 within the current preset measurement cycle, is no longer based on the UE TEBS reported and is scheduling authorizing. Such as, scheduling unit 705 specifically can exemplarily based on UPH and the SNPL information in SI, and this uplink service is transferred mandate by and the QoS information of this business.

Based on the network equipment that the above embodiment of the present invention provides, can according to whether be properly received this uplink business data and be properly received the ACK information of uplink business data to UE return or be properly received the nack message of uplink business data, and when receiving the UE SI reported, identify whether to receive the measurement report message of the UE 5B event sent, if receiving the measurement report message of the UE 5B event sent, can know that up BLER is also higher, namely reverse link traffic channel is second-rate, now the size of TEBS value can not reflect the uplink business data transmission quantity demand of UE, now, the network equipment is just no longer based on the UE TEBS reported and is scheduling authorizing, so that the scheduling authorization of UE is more efficient, rationally, compared with prior art, avoid because of the too high waste causing limited network resources of scheduling authorization, and scheduling authorization is too low cannot meet the uplink business data transmission quantity factors influencing demand UE actual for the UE transmission to uplink business data, thus affecting quality of service.

A concrete example according to inventive network apparatus embodiments and unrestricted, in embodiment shown in Fig. 9, scheduling unit 705 can be also used for the recognition result according to the 4th recognition unit 703, within the current preset measurement cycle, the measurement report message of the UE 5B event reported is not received in response to the second Transmit-Receive Unit 701, based on UPH, SNPL and the TEBS information in SI, and the QoS information of this business, this business is transferred mandate.

Figure 10 is the structural representation of inventive network another embodiment of equipment. The network equipment of this embodiment can be used for realizing the flow process of scheduling method for handover control embodiment shown in Fig. 5. As shown in Figure 10, compared with the embodiment shown in Fig. 9, the network equipment of this embodiment also includes mass measurement control unit 707, for receiving the UE business request information sent in response to the second Transmit-Receive Unit 701, generate mass measurement and control message and indicate the second Transmit-Receive Unit 701 to be handed down to UE. Mass measurement therein controls message and includes uplink transmission channels mark, affirmative acknowledgement and negative response sum, NACK number threshold value and delayed trigger duration information.

Exemplarily, when mass measurement control unit 707 generates mass measurement control message, specifically according to the correspondence relationship information between the type of service pre-set and QoS, the type of service in business request information the QoS information that this business is corresponding can be obtained; And set affirmative acknowledgement and negative response sum, NACK number threshold value according to the QoS information that this business is corresponding, and according to scheduling authorization frequency setting delayed trigger duration.

A concrete example according to inventive network apparatus embodiments and unrestricted, in the network equipment of the various embodiments described above, the second Transmit-Receive Unit 701 specifically can be returned to UE by E-HICH that uplink transmission channels identifies and receive results messages. Correspondingly, the measurement report message of the 5B event that the second Transmit-Receive Unit 701 receives includes the BLER information of uplink transmission channels mark and E-DCH. Wherein, the BLER information of E-DCH is obtained based on the ratio of the nack message sum having been received by with affirmative acknowledgement with negative response sum by UE.

Further exemplarily, the mass measurement that mass measurement control unit 707 generates controls to include HARQ process identification (PID) in message. Correspondingly, in the measurement report message of the 5B event that the second Transmit-Receive Unit 701 receives, the BLER information of E-DCH specifically includes the BLER information of each HARQ process identification (PID) in HARQ process identification (PID) and correspondence thereof.

In another concrete example of network equipment embodiment, the mass measurement that mass measurement control unit 707 generates controls can also include in message the format information of the measurement report message of 5B event. Correspondingly, the form of the measurement report message of the 5B event that the second Transmit-Receive Unit 701 receives is specially the form that format information specifies.

Further, referring back to Figure 10, another embodiment according to inventive network equipment, also include the 5th recognition unit 709, for receiving the UE SI reported in response to the second Transmit-Receive Unit 701, identify whether described UE is carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, and identify the UPH value in this SI whether more than the SNPL in default UPH threshold value, SI whether more than default SNPL threshold value. Correspondingly, 4th recognition unit 703 is with specific reference to the recognition result of the 5th recognition unit 709, in response to this UE not carried out any co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, can know that this UE Serving cell being presently in is for isolated community, if the UPH value in SI is more than default UPH threshold value, then start to perform the operation of the measurement report message whether identification the second Transmit-Receive Unit 701 receives this UE 5B event reported within the current preset measurement cycle; If the UPH value in SI is less than or equal to default UPH threshold value, this UE is carried out minimum power mandate so that the power licensing to described UE only supports described UE SI reporting or business datum sizable with SI;And if the UPH value in SI is more than default UPH threshold value, and the SNPL in SI is more than default SNPL threshold value, starts to perform the operation of the measurement report message whether identification the second Transmit-Receive Unit 701 receives the UE 5B event reported within the current preset measurement cycle. Scheduling unit 705 is additionally operable to the recognition result according to the 5th recognition unit 709, in response to this UE not carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, if the UPH value in SI is less than or equal to default UPH threshold value, this UE is carried out minimum power mandate so that the power licensing to this UE only supports this UE SI reporting or business datum sizable with SI; And in response to this UE being carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, if the UPH value in SI is less than or equal to default UPH threshold value, and/or the SNPL in SI is less than or equal to default SNPL threshold value, UE is carried out minimum power mandate so that the power licensing to UE only supports UE SI reporting or business datum sizable with SI.

Figure 11 is the structural representation that the present invention dispatches one embodiment of handover control system. The scheduling handover control system of this embodiment can realize scheduling method for handover control and the Application Example flow process thereof of the various embodiments described above of the present invention. As shown in figure 11, the scheduling handover control system of this embodiment includes UE1 and the network equipment 3. The network equipment 3 therein can be wireless access network (RadioAccessNetwork, hereinafter referred to as the equipment in RAN), for instance, NodeB, RNC etc., it is also possible to be other network equipment.

Wherein, UE1, for sending uplink business data by E-DCH to the network equipment 3, and receive the reception results messages that the network equipment 3 returns, this reception results messages is used for representing whether uplink business data is correctly received, and receives results messages and includes representing the ACK information being properly received uplink business data or the nack message not being properly received uplink business data; It is nack message in response to receiving results messages, the affirmative acknowledgement that the mass measurement issued with the network equipment 3 controls in message adds up to unit with negative response, and whether the affirmative acknowledgement that statistics currently has been received by reaches mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message; And reach the NACK number threshold value in mass measurement control message in response to the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window, the measurement report message of 5B event is initiated to the network equipment 3.

The network equipment 3, for receiving UE1 by the E-DCH uplink business data sent, and according to whether be properly received this uplink business data to return reception results messages to UE1; In response to receiving the UE1 SI reported, identifying the measurement report message whether receiving the UE1 5B event reported within the current preset measurement cycle, SI therein includes UE1 UPH, SNPL and the TEBS information detected within the current detection cycle; And in response to receiving the measurement report message of the UE1 5B event reported within the current preset measurement cycle, be no longer based on the UE1 TEBS reported and be scheduling authorizing.

In the scheduling handover control system that the above embodiment of the present invention provides, UE sends uplink business data by E-DCH to the network equipment, the network equipment is according to whether be properly received this uplink business data and be properly received the ACK information of uplink business data to UE return or be not properly received the nack message of uplink business data, when reception results messages is nack message, the affirmative acknowledgement that UE controls in message with the mass measurement that the network equipment issues adds up to unit with negative response, whether the affirmative acknowledgement that statistics currently has been received by reaches mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message, if the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window reach mass measurement controls the NACK number threshold value in message, UE initiates the measurement report message of 5B event to the network equipment, when the network equipment receives the measurement report message of the UE 5B event sent, can know that up BLER is also higher, namely reverse link traffic channel is second-rate, now the size of TEBS value can not reflect the uplink business data transmission quantity demand of UE, the network equipment is just no longer based on the UE TEBS reported and is scheduling authorizing, so that the scheduling authorization of UE is more efficient, rationally, avoid in prior art because of the too high waste causing limited network resources of scheduling authorization, and scheduling authorization is too low cannot meet the uplink business data transmission quantity factors influencing demand UE actual for the UE transmission to uplink business data, thus affecting quality of service.

The UE structure that UE1 in embodiment illustrated in fig. 11 specifically can pass through Fig. 7 to Fig. 8 any embodiment and provide realizes, and the network equipment 3 structure that the network equipment 3 specifically can pass through Figure 10 to Figure 11 any embodiment and provide realizes. The information that UE1 carries out mass measurement control message, the measurement report message of 5B event, business request information, business datum, SI etc. with the network equipment 3 especially by the first Transmit-Receive Unit 601 in UE1 and the second Transmit-Receive Unit 701 in the network equipment 2 is mutual. Figure 11 exemplarily only illustrating, UE1 adopts one of them example structure, the network equipment 3 shown in Fig. 8 specifically to adopt the instantiation that one of them example structure shown in Figure 11 realizes, the embodiment that other embodiments structure of the present invention realizes is adopted for UE1 and the network equipment 3, those skilled in the art can realize based on the content that the above embodiment of the present invention is recorded, and repeats no more.

In this specification, each embodiment all adopts the mode gone forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, same or analogous part cross-reference between each embodiment. For device, system embodiment, owing to it is substantially corresponding with embodiment of the method, so what describe is fairly simple, relevant part illustrates referring to the part of embodiment of the method.

One of ordinary skill in the art will appreciate that: all or part of step realizing said method embodiment can be completed by the hardware that programmed instruction is relevant, aforesaid program can be stored in a computer read/write memory medium, this program upon execution, performs to include the step of said method embodiment; And aforesaid storage medium includes: the various media that can store program code such as ROM, RAM, magnetic disc or CDs.

Those of ordinary skill in the art again it will be understood that: the Component units in the various embodiments described above UE of the present invention, the network equipment and scheduling handover control system can be realized by software, it is also possible to is realized by hardware. Further, the Component units of the various embodiments described above UE of the present invention, the network equipment and scheduling handover control system not necessarily realize the embodiment of the present invention must or only limit. Additionally, in the Component units of UE, the network equipment and scheduling handover control system, a unit realization can be merged into by multiple Component units, the realization of multiple subelement can also be split as by a Component units, annexation between each Component units, only represent an information flow direction exemplary relationship based on the present invention, be not limited to physical couplings, and be also not necessarily realize the embodiment of the present invention must or only limit.

In the embodiment of the present invention, the network equipment is according to whether be properly received this uplink business data and be properly received the ACK information of uplink business data to UE return or be not properly received the nack message of uplink business data, when reception results messages is nack message, the affirmative acknowledgement that UE controls in message with the mass measurement that the network equipment issues adds up to unit with negative response, whether the affirmative acknowledgement that statistics currently has been received by reaches mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message, if the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window reach mass measurement controls the NACK number threshold value in message, UE initiates the measurement report message of 5B event to the network equipment, when the network equipment receives the measurement report message of the UE 5B event sent, can know that up BLER is also higher, namely reverse link traffic channel is second-rate, now the size of TEBS value can not reflect the uplink business data transmission quantity demand of UE, now, the network equipment is just no longer based on the UE TEBS reported and is scheduling authorizing, so that the scheduling authorization of UE is more efficient, rationally, compared with prior art, avoid because of the too high waste causing limited network resources of scheduling authorization, and scheduling authorization is too low cannot meet the uplink business data transmission quantity factors influencing demand UE actual for the UE transmission to uplink business data, thus affecting quality of service,

When the network equipment receives the UE SI sent, if SNPL or UPH that UE reports is less than predetermined threshold value, can know that UE has been positioned at cell edge, signal quality is poor, still maintains the mandate to UE so that it is can send SI information, and then maintain continuing of HSUPA business, and avoid causing that UE initiates cell update, service disconnection owing to UE not being scheduling for a long time mandate, thus improve quality of service, it is to avoid cutting off rate.

Description of the invention provides for example with for the purpose of describing, and is not exhaustively or limit the invention to disclosed form. Many modifications and variations are obvious for the ordinary skill in the art. Selecting and describing embodiment is in order to principles of the invention and practical application are better described, and makes those of ordinary skill in the art it will be appreciated that the present invention is thus design is suitable to the various embodiments with various amendments of special-purpose.

Claims (36)

1. a scheduling method for handover control, it is characterised in that including:

User equipment (UE) sends uplink business data by enhanced dedicated E-DCH to the network equipment, and receives the reception results messages that the network equipment returns; Described reception results messages is used for representing whether described uplink business data is correctly received, and described reception results messages includes the affirmative acknowledgement ACK information being properly received uplink business data or the negative response nack message not being properly received uplink business data;

It is nack message in response to described reception results messages, the affirmative acknowledgement that UE controls in message with the mass measurement that the network equipment issues adds up to unit with negative response, and whether the affirmative acknowledgement that statistics currently has been received by reaches described mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message;

Reach described mass measurement in response to the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window and control the NACK number threshold value in message, UE initiates the measurement report message of 5B event to the network equipment, in order to the network equipment is no longer based on the UE total E-DCH buffer status TEBS reported and is scheduling authorizing.

2. method according to claim 1, it is characterised in that UE initiates to the network equipment before the measurement report message of 5B event, also includes:

UE identifies the measurement report message whether initiating 5B event in this business;

If UE not yet initiated the measurement report message of 5B event in this business, then perform the described operation of measurement report message initiating 5B event to the network equipment, and start the delayed trigger duration that an intervalometer controls to arrange in message according to mass measurement and carry out timing;

If UE had initiated the measurement report message of 5B event in this business, then decipherment distance was initiated the interval of the measurement report message of 5B event last time and whether is reached described delayed trigger duration;

The interval of measurement report message initiating 5B event last time in response to distance reaches described delayed trigger duration, and UE initiates the measurement report message of 5B event to the network equipment, and starts described intervalometer and again carry out timing according to described delayed trigger duration.

3. method according to claim 2, it is characterised in that also include:

Initiate the interval of measurement report message of 5B event last time in response to distance not up to described delayed trigger duration, do not initiate the measurement report message of 5B event to the network equipment.

4. method according to claim 3, it is characterised in that also include:

UE receives the mass measurement control message that the network equipment issues, and described mass measurement controls message and includes the uplink transmission channels mark for identifying described E-DCH, affirmative acknowledgement and negative response sum, NACK number threshold value and delayed trigger duration information.

5. method according to claim 4, it is characterised in that described UE specifically receives the hybrid automatic repeat-request of the E-DCH that the network equipment is identified by described uplink transmission channels and confirms the instruction channel E-HICH reception results messages returned;

Initiate the measurement report message of 5B event to the network equipment before, also include: described UE is total based on nack message in the affirmative acknowledgement having been received by and negative response sum window and the ratio of the described affirmative acknowledgement having been received by and negative response sum obtains the block error rate BLER information of described E-DCH;

The measurement report message of described 5B event includes the BLER information of described uplink transmission channels mark and described E-DCH.

6. method according to claim 5, it is characterised in that described mass measurement controls also to include hybrid automatic repeat-request HARQ process identification (PID) in message;

After receiving the reception results messages that the network equipment returns, also include: described UE identifies whether the reception results messages receiving HARQ process identification (PID) described in results messages corresponding is NACK message;

It is nack message in response to the reception results messages that described HARQ process identification (PID) is corresponding, described UE is respectively directed to each HARQ process that described HARQ process identification (PID) identifies, performing the affirmative acknowledgement that the described mass measurement issued with the network equipment controls in message and add up to unit with negative response, whether the affirmative acknowledgement that statistics currently has been received by reaches described mass measurement with nack message sum in negative response sum window controls the operation of the NACK number threshold value in message;

The BLER information of E-DCH described in the measurement report message of described 5B event includes the BLER information of each HARQ process identification (PID) in described HARQ process identification (PID) and correspondence thereof.

7. the method according to claim 1 to 6 any one, it is characterised in that described mass measurement controls also to include in message the format information of the measurement report message of 5B event;

The measurement report message that described UE initiates 5B event to the network equipment includes: described UE generates the measurement report message of 5B event according to the form that described format information specifies, and is sent to the network equipment.

8. method according to claim 7, it is characterised in that also include:

Described UE is with the dump power UPH of UE, Serving cell and adjacent cell path loss SNPL and TEBS information described in default measurement cycle detection, and UPH, SNPL and the TEBS information detected in current measurement cycle is included to described network equipment reporting scheduling information SI, described SI.

9. a scheduling method for handover control, it is characterised in that including:

The network equipment receives UE by the E-DCH uplink business data sent, and according to whether be properly received this uplink business data to return reception results messages to described UE; Described reception results messages includes the ACK information being properly received uplink business data or the nack message not being properly received uplink business data;

In response to receiving the UE SI reported, whether described network equipment identification receives the measurement report message of the described UE 5B event reported within the current preset measurement cycle; Described SI includes described UE UPH, SNPL and the TEBS information detected in current measurement cycle; The affirmative acknowledgement that the measurement report message of described 5B event is controlled in message with the mass measurement that the described network equipment issues by described UE adds up to unit with negative response, and the affirmative acknowledgement that statistics currently has been received by and nack message sum in negative response sum window report when reaching the NACK number threshold value in described mass measurement control message;

In response to the measurement report message receiving the described UE 5B event reported within the current preset measurement cycle, the described network equipment is no longer based on the described UE TEBS reported and is scheduling authorizing.

10. method according to claim 9, it is characterised in that the described network equipment is no longer based on the described UE TEBS reported and is scheduling mandate and includes:

The described network equipment is based on UPH and the SNPL information in described SI, and the service quality QoS information of this business, and this uplink service is transferred mandate.

11. method according to claim 10, it is characterised in that also include:

In response to the measurement report message not receiving the described UE 5B event reported within the current preset measurement cycle, the described network equipment is based on UPH, SNPL and the TEBS information in SI, and the QoS information of this business, and this business is transferred mandate.

12. method according to claim 11, it is characterised in that also include:

The described network equipment is in response to receiving the described UE business request information sent, generating and issue mass measurement to described UE and control message, described mass measurement controls message and includes uplink transmission channels mark, affirmative acknowledgement and negative response sum, NACK number threshold value and delayed trigger duration information.

13. method according to claim 12, it is characterised in that when the described network equipment generates mass measurement control message, obtain, with specific reference to the type of service in described business request information, the QoS information that this business is corresponding; And set described affirmative acknowledgement and negative response sum, NACK number threshold value according to the QoS information that this business is corresponding, and according to scheduling authorization frequency setting delayed trigger duration.

14. method according to claim 12, it is characterised in that the E-HICH that the described network equipment identifies especially by described uplink transmission channels returns reception results messages to described UE;

The measurement report message of described 5B event includes described uplink transmission channels mark and the BLER information of described E-DCH, and the BLER information of described E-DCH is total with nack message in negative response sum window based on the affirmative acknowledgement having been received by by described UE and the ratio of the described affirmative acknowledgement having been received by and negative response sum obtains.

15. method according to claim 14, it is characterised in that described mass measurement controls also to include HARQ process identification (PID) in message;

The BLER information of E-DCH described in the measurement report message of described 5B event includes the BLER information of each HARQ process identification (PID) in described HARQ process identification (PID) and correspondence thereof.

16. method according to claim 14, it is characterised in that described mass measurement controls also to include in message the format information of the measurement report message of 5B event;

The form of the measurement report message of described 5B event is specially the form that described format information specifies.

17. according to the method described in claim 9 to 16 any one, it is characterised in that also include:

In response to receiving the UE SI reported, the described network equipment identifies whether described UE is carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, and identify the UPH value in described SI whether more than the SNPL in default UPH threshold value, described SI whether more than default SNPL threshold value;

In response to described UE not carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, if the UPH value in described SI is more than default UPH threshold value, perform the operation whether described identification receives the measurement report message of the described UE 5B event reported within the current preset measurement cycle;Otherwise, if the UPH value in described SI is less than or equal to default UPH threshold value, described UE is carried out minimum power mandate so that the power licensing to described UE only supports described UE SI reporting or business datum sizable with SI;

In response to described UE being carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, if the UPH value in described SI is more than default UPH threshold value, and the SNPL in described SI is more than default SNPL threshold value, performs the operation whether described identification receives the measurement report message of the described UE 5B event reported within the current preset measurement cycle; Otherwise, if the UPH value in described SI is less than or equal to default UPH threshold value, and/or the SNPL in described SI is less than or equal to default SNPL threshold value, described UE is carried out minimum power mandate by the described network equipment so that the power licensing to described UE only supports described UE SI reporting or business datum sizable with SI.

18. a subscriber equipment, it is characterised in that include the first Transmit-Receive Unit and analytic unit;

Described first Transmit-Receive Unit, for sending uplink business data by E-DCH to the network equipment, and receives the reception results messages that the network equipment returns; Described reception results messages is used for representing whether described uplink business data is correctly received, and described reception results messages includes the ACK information being properly received uplink business data or the nack message not being properly received uplink business data; And the statistical result according to analytic unit, reach mass measurement in response to the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window and control the NACK number threshold value in message, the measurement report message of 5B event is initiated, in order to the network equipment is no longer based on the UE total E-DCH buffer status TEBS reported and is scheduling authorizing to the network equipment;

Described analytic unit, for being nack message in response to described reception results messages, the affirmative acknowledgement that the mass measurement issued with the network equipment controls in message adds up to unit with negative response, and whether the affirmative acknowledgement that statistics currently has been received by reaches described mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message.

19. subscriber equipment according to claim 18, it is characterised in that also include the first recognition unit and the second recognition unit;

Described first recognition unit, for the statistical result according to analytic unit, reach described mass measurement in response to the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window and control the NACK number threshold value in message, identify whether described first Transmit-Receive Unit initiated the measurement report message of 5B event in this business;

Described second recognition unit, for the recognition result according to described first recognition unit, if UE had initiated the measurement report message of 5B event in this business, then decipherment distance was initiated the interval of the measurement report message of 5B event last time and whether is reached delayed trigger duration;

Described first Transmit-Receive Unit is with specific reference to the recognition result of described first recognition unit, if UE not yet initiated the measurement report message of 5B event in this business, initiate the operation of measurement report message of 5B event to the network equipment, and start the delayed trigger duration that an intervalometer controls to arrange in message according to mass measurement and carry out timing; And

Recognition result according to described second recognition unit, described delayed trigger duration is reached in response to the interval apart from the measurement report message initiating 5B event last time, initiate the measurement report message of 5B event to the network equipment, and start described intervalometer and again carry out timing according to described delayed trigger duration;Initiate the interval of measurement report message of 5B event last time in response to distance not up to described delayed trigger duration, do not initiate the measurement report message of 5B event to the network equipment.

20. subscriber equipment according to claim 19, it is characterized in that, described first Transmit-Receive Unit is additionally operable to receive the mass measurement control message that the network equipment issues, and described mass measurement controls message and includes the uplink transmission channels mark for identifying described E-DCH, affirmative acknowledgement and negative response sum, NACK number threshold value and delayed trigger duration information.

21. subscriber equipment according to claim 20, it is characterised in that also include acquiring unit;

Described first Transmit-Receive Unit specifically receives the network equipment by the E-HICH that described uplink transmission channels the identifies reception results messages returned; The measurement report message of described 5B event includes the BLER information of the described E-DCH that described uplink transmission channels mark gets with described acquiring unit;

Described acquiring unit, is additionally operable to that the affirmative acknowledgement that has been received by based on described first Transmit-Receive Unit is total with nack message in negative response sum window and the ratio of described affirmative acknowledgement and negative response sum obtains the BLER information of described E-DCH.

22. subscriber equipment according to claim 21, it is characterised in that described mass measurement controls also to include HARQ process identification (PID) in message; The BLER information of E-DCH described in the measurement report message of described 5B event includes the BLER information of each HARQ process identification (PID) in described HARQ process identification (PID) and correspondence thereof;

Whether described subscriber equipment also includes the 3rd recognition unit, be NACK message for identifying reception results messages corresponding to HARQ process identification (PID) described in the reception results messages that described first Transmit-Receive Unit receives;

Described analytic unit is with specific reference to the recognition result of the 3rd recognition unit, it is nack message in response to the reception results messages that described HARQ process identification (PID) is corresponding, it is respectively directed to each HARQ process that described HARQ process identification (PID) identifies, performing the affirmative acknowledgement that the described mass measurement issued with the network equipment controls in message and add up to unit with negative response, whether the affirmative acknowledgement that statistics currently has been received by reaches described mass measurement with nack message sum in negative response sum window controls the operation of the NACK number threshold value in message.

23. according to the subscriber equipment described in claim 18 to 22 any one, it is characterised in that described mass measurement controls also to include in message the format information of the measurement report message of 5B event;

Described first Transmit-Receive Unit specifically initiates the measurement report message of the 5B event generated according to the form that described format information specifies to the network equipment.

24. subscriber equipment according to claim 23, it is characterised in that also include detection unit, for default measurement cycle detection UPH, SNPL and TEBS information;

Described first Transmit-Receive Unit is additionally operable to described network equipment SI reporting, and described SI includes UPH, SNPL and the TEBS information that described detection unit detects in current measurement cycle.

25. a network equipment, it is characterised in that including:

Second Transmit-Receive Unit, for receiving UE by the E-DCH uplink business data sent, and according to whether be properly received this uplink business data to return reception results messages to described UE; And receive the UE SI reported; And receive the measurement report message of the UE 5B event reported;Described reception results messages includes the ACK information being properly received uplink business data or the nack message not being properly received uplink business data; Described SI includes described UE UPH, SNPL and the TEBS information detected in current measurement cycle; The affirmative acknowledgement that the measurement report message of described 5B event is controlled in message with the mass measurement that the described network equipment issues by described UE adds up to unit with negative response, and the affirmative acknowledgement that statistics currently has been received by and nack message sum in negative response sum window report when reaching the NACK number threshold value in described mass measurement control message;

4th recognition unit, for receiving the UE SI reported in response to the second Transmit-Receive Unit, identifies whether the second Transmit-Receive Unit receives the measurement report message of the described UE 5B event reported within the current preset measurement cycle;

Scheduling unit, for the recognition result according to the 4th recognition unit, receives the measurement report message of the described UE 5B event reported in response to the second Transmit-Receive Unit within the current preset measurement cycle, is no longer based on the described UE TEBS reported and is scheduling authorizing.

26. the network equipment according to claim 25, it is characterised in that described scheduling unit is specifically based on UPH and the SNPL information in described SI and the QoS information of this business, and this uplink service is transferred mandate.

27. the network equipment according to claim 26, it is characterized in that, described scheduling unit is additionally operable to the recognition result according to the 4th recognition unit, within the current preset measurement cycle, the measurement report message of the described UE 5B event reported is not received in response to the second Transmit-Receive Unit, based on UPH, SNPL and the TEBS information in SI, and the QoS information of this business, this business is transferred mandate.

28. the network equipment according to claim 27, it is characterized in that, also include mass measurement control unit, for receiving the described UE business request information sent in response to the second Transmit-Receive Unit, generating mass measurement control message and indicate the second Transmit-Receive Unit to be handed down to described UE, described mass measurement controls message and includes uplink transmission channels mark, affirmative acknowledgement and negative response sum, NACK number threshold value and delayed trigger duration information.

29. the network equipment according to claim 28, it is characterised in that when described mass measurement control unit generates mass measurement control message, obtain, with specific reference to the type of service in described business request information, the QoS information that this business is corresponding; And set described affirmative acknowledgement and negative response sum, NACK number threshold value according to the QoS information that this business is corresponding, and according to scheduling authorization frequency setting delayed trigger duration.

30. the network equipment according to claim 28, it is characterised in that the E-HICH that described second Transmit-Receive Unit identifies especially by described uplink transmission channels returns reception results messages to described UE;

The measurement report message of described 5B event includes described uplink transmission channels mark and the BLER information of described E-DCH, and the BLER information of described E-DCH is total with nack message in negative response sum window based on the affirmative acknowledgement having been received by by described UE and the ratio of the described affirmative acknowledgement having been received by and negative response sum obtains.

31. the network equipment according to claim 30, it is characterised in that described mass measurement controls also to include HARQ process identification (PID) in message;

The BLER information of E-DCH described in the measurement report message of described 5B event includes the BLER information of each HARQ process identification (PID) in described HARQ process identification (PID) and correspondence thereof.

32. the network equipment according to claim 30, it is characterised in that described mass measurement controls also to include in message the format information of the measurement report message of 5B event;

The form of the measurement report message of described 5B event is specially the form that described format information specifies.

33. according to the network equipment described in claim 25 to 32 any one, it is characterized in that, also include the 5th recognition unit, for receiving the UE SI reported in response to the second Transmit-Receive Unit, identify whether described UE is carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, and identify the UPH value in described SI whether more than the SNPL in default UPH threshold value, described SI whether more than default SNPL threshold value;

Described 4th recognition unit is with specific reference to the recognition result of described 5th recognition unit, in response to described UE not carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, if the UPH value in described SI is more than default UPH threshold value, start the operation performing to identify the second Transmit-Receive Unit in the measurement report message whether receiving the described UE 5B event reported within the current preset measurement cycle; And

In response to described UE being carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, if the UPH value in described SI is more than default UPH threshold value, and the SNPL in described SI is more than default SNPL threshold value, starts the operation performing to identify the second Transmit-Receive Unit in the measurement report message whether receiving the described UE 5B event reported within the current preset measurement cycle;

Described scheduling unit is additionally operable to the recognition result according to described 5th recognition unit, in response to described UE not carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, if the UPH value in described SI is less than or equal to default UPH threshold value, described UE is carried out minimum power mandate so that the power licensing to described UE only supports described UE SI reporting or business datum sizable with SI; And in response to described UE being carried out co-frequency neighbor cell and iso-frequency adjacent community parameter configuration, if the UPH value in described SI is less than or equal to default UPH threshold value, and/or the SNPL in described SI is less than or equal to default SNPL threshold value, described UE is carried out minimum power mandate so that the power licensing to described UE only supports described UE SI reporting or business datum sizable with SI.

34. a scheduling handover control system, it is characterised in that include UE and the network equipment;

Described UE, for sending uplink business data by E-DCH to the network equipment, and receives the reception results messages that the network equipment returns; Described reception results messages is used for representing whether described uplink business data is correctly received, and described reception results messages includes the ACK information being properly received uplink business data or the nack message not being properly received uplink business data; It is nack message in response to described reception results messages, the affirmative acknowledgement that the mass measurement issued with the network equipment controls in message adds up to unit with negative response, and whether the affirmative acknowledgement that statistics currently has been received by reaches described mass measurement with nack message sum in negative response sum window controls the NACK number threshold value in message; And reach the NACK number threshold value in described mass measurement control message in response to the affirmative acknowledgement currently having been received by and nack message sum in negative response sum window, the measurement report message of 5B event is initiated to the network equipment;

The described network equipment, for receiving UE by the E-DCH uplink business data sent, and according to whether be properly received this uplink business data to return reception results messages to described UE; In response to receiving the UE SI reported, identify the measurement report message whether receiving the described UE 5B event reported within the current preset measurement cycle; Described SI includes described UE UPH, SNPL and the TEBS information detected in current measurement cycle; And in response to receiving the measurement report message of the described UE 5B event reported within the current preset measurement cycle, be no longer based on the described UE TEBS reported and be scheduling authorizing.

35. system according to claim 34, it is characterised in that the described network equipment includes base station NodeB or radio network controller (RNC).

36. the system according to claim 34 or 35, it is characterised in that described UE is specially the subscriber equipment described in claim 18 to 24 any one;

The described network equipment is specially the network equipment described in claim 25 to 33 any one.