CN102647756B - Service collocation method and device - Google Patents

Abstract

The embodiment of the invention provides a service collocation method and device. The method comprises the following steps: collocating a service on an uplink of UE (User Equipment) to a discrete transmission DTX first mode, namely, a strict intermittent sending mode on pattern burst, when an uplink load of a cell where the UE is located is higher than a preset first load threshold; and collocating the service on the uplink of UE to a DTX second mode, namely, a continuous transmission mode of a starting end on the pattern burst, when the uplink load of the cell where the UE is located is lower than a preset second load threshold, wherein the service is the service with the version being 3GPP R7 or above the 3GPP R7 (the seventh version of the 3rd Generation Partnership Project) and the second load threshold is less than or equal to the first load threshold. The method and device can consider the balance of reducing the uplink load of the cell and reducing the uplink delay of the service, so as to increase the QoS (Quality of Service).

Description

Business collocation method and equipment

Technical field

The present invention relates to wireless communication technology field, particularly relate to business collocation method and equipment.

Background technology

Permanent bag connects (CPC, Continues Packet Connection) discontinuous transmission/discontinuous reception (DTX/DRX in technology, Discontinues Transmission/Discontinues Receive) be very important technology contents in enhanced high-speed grouping access (HSPA+, High Speed PacketAccess+).When the up link of UE sends without any business datum, unnecessary Uplink Dedicated Physical control channel (DPCCH, Dedicated Physical Control Channel) the upper signal sent can increase unnecessary uplink interference, reduces uplink capacity.And the discontinuous transmission of up link (ULDTX, Uplink Discontinues Transmission) can uplink channel interference be reduced, increase uplink users number, and user can be allowed to be in cell private channel (CELL DCH) state all the time, reduce the state transition of user terminal (UE, User Equipment).And when the down link of UE sends without any business datum, UE there is no need to detect high-speed dedicated shared control channel (HS-SCCH always, High Speed Shared Control Channel), consume the power of UE too much, the discontinuous reception of down link (DL DRX, Downlink Discontinues Receive) introduce high-speed slender body theory (HSDPA, High Speed Downlink Packet Access) the discontinuous reception of down link, thus UE power loss can be reduced.

But, after adopting CPC technology, owing to sending the restriction of pattern and parameter configuration, when UE has up or downlink service data transmission, a part of propagation delay time can be introduced.When the time delay accumulated is larger, certain data packetloss may be caused, reduce the service quality (QoS, Quality ofService) of UE business.

Such as, in third generation partner program the 7th edition (3GPP R7,3 ^rdgeneration PartnershipProject Release 7) in, be discontinuous transmission/discontinuous reception (DTX/DRX by the business setting of UE, Discontinues Transmission/Discontinues Receive) pattern, after adopting DTX/DRX, UE side automatically enters DTX activation/DRX and activates, when not having business datum to send, that can reduce the signal on DPCCH sends reduction ascending load.

But inventor finds in the research and practice of prior art, adopt DTX/DRX can introduce certain time delay, and, because the change of channel circumstance may not be mated with between pattern, the QoS of business therefore may be caused to be affected.

Summary of the invention

Embodiment of the present invention technical problem to be solved is to provide business collocation method and equipment, to reduce the propagation delay time of business.

Embodiments provide a kind of business collocation method, the method comprises:

When the ascending load of community, user equipment (UE) place is higher than the first load-threshold pre-set, by the business configuration in described UE up link to discontinuous transmitting DTX first mode, namely strictly pattern burst on interval sending mode;

When the ascending load of community, described UE place is lower than the second load-threshold pre-set, by the business configuration in described UE up link to DTX second pattern, i.e. initial head continuous sending mode in pattern burst;

Described business is third generation partner program the 7th edition above version business of 3GPP R7 or 3GPP R7, and described second load-threshold is less than or equal to the first load-threshold.

Embodiments provide a kind of base station equipment, this base station equipment comprises: load judgment unit, the first dispensing unit, the second dispensing unit, wherein:

Load judgment unit, for calculating the ascending load of community, UE place, and when described ascending load is higher than the first load-threshold arranged, trigger the first dispensing unit, when described ascending load is lower than the second load-threshold arranged, trigger the second dispensing unit, described second load-threshold is less than or equal to the first load-threshold;

First dispensing unit, for according to the triggering of load judgment unit by the business configuration in described UE up link to uplink discontinuous transmitting DTX first mode, namely strictly pattern burst on interval sending mode;

Second dispensing unit, for according to the triggering of load judgment unit by the business configuration in described UE up link to DTX second pattern, i.e. initial head continuous sending mode in pattern burst;

Described business is third generation partner program the 7th edition above version business of 3GPP R7 or 3GPP R7.

Visible, due to when community, configuration UE place ascending load higher than arrange the first load-threshold time, by the business configuration in UE up link to DTX strictly at pattern burst interval sending mode, UE can vacate more time slot to reduce ascending load; And when the ascending load of the community, UE place configured is lower than the second load-threshold arranged, by the business configuration in described UE up link to the initial head of DTX continuous sending mode in pattern burst, described business refers to 3GPP R7 or more version business, send owing to just aiming at Burst slot when first time sends business datum, business datum can be sent continuously after Burst slot, therefore can reduce business transmission delay on uplink.In summary, said method can be taken into account and reduce ascending load of cell and the balance reducing business uplink time delay, thus improves the QoS of business.

Accompanying drawing explanation

Fig. 1 is business collocation method one flow chart in the embodiment of the present invention;

Fig. 2 is embodiment of the present invention small area operating state transition graph;

Fig. 3 is that in the embodiment of the present invention, DTX/DRX activation & deexcitation realizes integrality figure;

Fig. 4 is business collocation method two schematic diagram in the embodiment of the present invention;

Fig. 5 is business collocation method three flow chart in the embodiment of the present invention;

Fig. 6 is business collocation method three flow chart in the embodiment of the present invention;

Fig. 7 is business collocation method four flow chart in the embodiment of the present invention;

Fig. 8 is business collocation method five flow chart in the embodiment of the present invention;

Fig. 9 is business collocation method six flow chart in the embodiment of the present invention;

Figure 10 is business collocation method seven flow chart in the embodiment of the present invention;

Figure 11 is business collocation method eight flow chart in the embodiment of the present invention;

Figure 12 is business collocation method nine flow chart in the embodiment of the present invention;

Figure 13 is base station equipment one structural representation in the embodiment of the present invention;

Figure 14 is base station equipment two structural representation in the embodiment of the present invention;

Figure 15 is base station equipment three structural representation in the embodiment of the present invention;

Figure 16 is base station equipment four structural representation in the embodiment of the present invention.

Embodiment

Embodiments providing business collocation method and equipment, for making the object of the embodiment of the present invention, technical scheme and advantage clearly understand, referring to accompanying drawing, the embodiment of the present invention being described in detail.

For ease of understanding, first introduce some concepts that may relate in the embodiment of the present invention below:

3GPP R99 business is called for short R99 business, mainly refers to that the uplink service of UE and downlink traffic are all carried on the type of service on DCH channel; 3GPP R6 business refers to that the uplink service of UE is carried on High Speed Uplink Packet access (HSUPA, High Speed Uplink Packet Access) on, downlink traffic is carried on HSDPA, 3GPP R7 business is called for short R7 business, is the type of service increasing CPC technology on the basis of R6 business.Below if no special instructions, said business is all explained the embodiment of the present invention for 3GPP R7 business.Can the transmission of configuration service and receiving mode, i.e. DTX/DRX pattern in CPC technology, specifically comprise strictly interval sending mode and initial head sending mode two kinds of patterns continuously in pattern burst in pattern burst.So-called strictly in pattern burst interval sending mode refer to that sending data can only strictly send on the Burst slot in each cycle.So-called initial head in pattern burst continuously sending mode refer to when not having data to send, and do not send data time when exceeding certain thresholding, new data transmission can only send on the Burst slot of next cycle; If there are data to send, can send continuously until data are sent.For the business of the pattern of being configured to 1 and pattern 2, there are activation and deexcitation two states respectively.Wherein: DTX state of activation refers to that the business in UE up link is in the discontinuous transmission state of DPCCH.DTX deactivation status refers to that the business in UE up link is in DPCCH and sends state continuously.DRX state of activation refers to that the business on UE down link is in the discontinuous transmission state of HS-SCCH.DRX deactivation status refers to that the business on UE down link is in HS-SCCH and sends state continuously.

For convenience of description, below by strictly in pattern burst interval sending mode be called pattern 1, by initial head in pattern burst continuously sending mode be called pattern 2.Particularly, the business for UE up link can be configured to DTX pattern 1 or DTX pattern 2, can be configured to DRX mode 1 or DRX mode 2 for the business on UE down link.Be that pattern 1 can be expressed as DTX/DRX pattern 1 by the business configuration on UE up link and down link, be that pattern 2 can be expressed as DTX/DRX pattern 2 by the business configuration on UE up link and down link simultaneously simultaneously.For the activation of business under different mode and different mode, deactivation status has DTX pattern 1 state of activation respectively, DTX pattern 1 deactivation status, DTX pattern 2 state of activation, DTX pattern 2 deactivation status, DRX mode 1 state of activation, DRX mode 1 deactivation status, DRX mode 2 state of activation, several form of DRX mode 2 deactivation status, business on the uplink downlink of UE can be expressed as DTX/DRX pattern 1 state of activation when being in model identical equal state, DTX/DRX pattern 1 deactivation status and DTX/DRX pattern 2 state of activation, DTX/DRX pattern 2 deactivation status, if no special instructions, state of activation deactivation status described in following examples all refers to the activation under DTX/DRX pattern 1, deactivation status.

With reference to Fig. 1, be business collocation method in the embodiment of the present invention one flow chart, be described in detail below by way of concrete steps:

The ascending load of S101, calculating community, UE place, when described load is higher than the first load-threshold arranged, performs step S102; When described load is lower than the second load-threshold arranged, perform step S103, described second load-threshold is less than or equal to the first load-threshold;

Described first load-threshold and the second load-threshold user can be arranged according to the concrete condition of the network operation.

S102, by the R7 business configuration in described UE up link to DTX pattern 1;

S103, by the R7 business configuration in described UE up link to DTX pattern 2.

In the present embodiment, when ascending load in community, UE place is higher than the first load-threshold arranged, by the R7 business configuration in described UE up link to DTX pattern 1, can strictly on pattern Burst slot interval send business datum, UE can vacate more time slot, thus can reduce ascending load; And configure community, UE place ascending load lower than arrange the second load-threshold time, by the R7 business configuration in described UE up link to DTX pattern 2, for DTX pattern 2, the just aligned pattern Burst slot when first time sends business datum, UE can send business datum continuously afterwards, therefore can reduce the transmission delay of business datum in UE up link.In summary, the present embodiment both can reduce the ascending load of community, UE place to a certain extent, reduced business transmission delay on uplink to a certain extent again, avoided time delay to accumulate and caused data packetloss, therefore, can improve the QoS of business.

On embodiment one basis, can arrange the 3rd load-threshold, described 3rd load-threshold is less than or equal to the first load-threshold.When the business configuration in described UE up link is to DTX pattern 1, and the ascending load of community, described UE place lower than arrange the 3rd load-threshold time, by the business configuration in described UE up link to DTX pattern 2, to reduce business datum transmission delay further.

Visible, during by the ascending load in community, described UE place lower than the 3rd load-threshold arranged, the business in described UE up link is converted to DTX pattern 2 from DTX pattern 1, thus reduces uplink time delay further, improve the QoS of business.

And for being configured to the business of DTX pattern 2,4th load-threshold can also be set, described 4th load-threshold is more than or equal to the 3rd load-threshold and is less than or equal to the first load-threshold, when the ascending load of community, described UE place is higher than the 4th load-threshold arranged, by the business configuration in described UE up link to DTX pattern 1, to reduce ascending load when business datum is sufficient, avoid occurring call drop fault.

Be understandable that, described 3rd load-threshold and the 4th load-threshold, can be arranged according to the concrete condition of the network operation.

Visible, by set 3rd load-threshold and the 4th load-threshold, the business that can realize in described UE up link is mutually changed between DTX/DRX pattern 1 and DTX/DRX pattern 2, therefore, can realize reducing the balance of ascending load and minimizing business transmission delay on uplink as much as possible, thus the QoS of further raising business.

Be understandable that, for improving the QoS of business further, in the embodiment above, can also be configured the business on described UE down link simultaneously, such as, by the business configuration in described UE up link to DTX pattern 1 time, by the business configuration on described UE down link to DRX mode 1;

Or by the business configuration in described UE up link to DTX pattern 2 time, by the business configuration on described UE down link to DRX mode 2.

In concrete enforcement, when the business of described UE is in DTX/DRX pattern 2, and during four load-threshold of the ascending load of community, described UE place higher than described setting, cell is configured as follows, namely can be configured to DTX pattern 1 or DRX mode 1:

MAC_Inactivity_Threshold＝1/Inactivity_Threshold_for_UE_DRX_cycle＝0。

By configuration cell MAC_Inactivity_Threshold=1, the inactive thresholding of M AC (MAC, Medium Control-Dedicated) sublayer is set to 1, represents and strictly send on the Burst slot in each cycle.

And configure cell Inactivity_Threshold_for_UE_DRX_cycle=0 and represent the inactive thresholding of the discontinuous receiving cycle of UE is set to 0, represent and strictly receive on the Burst slot in each cycle.

When the business of described UE is in DTX/DRX pattern 1, and the ascending load of community, described UE place lower than arrange the 3rd load-threshold time, cell is configured as follows, namely can be configured to DTX pattern 2 or DRX mode 2.

MAC_Inactivity_Threshold＞1/Inactivity_Threshold_for_UE_DRX_cycle＞0。

Wherein, represent Media access contorl (MAC by configuration cell MAC_Inactivity_Threshold > 1,) the inactive thresholding of sublayer is set to be greater than 1, do not send data time when exceeding the described inactive thresholding of setting, new data sends and can only send on the Burst slot of next cycle; If there are data to send, can send continuously until data are sent.

Configuration cell Inactivity_Threshold_for_UE_DRX_cycle > 0 represents the number being set to the inactive thresholding of the discontinuous receiving cycle of UE to be greater than 0, represents and strictly receives on the Burst slot in each cycle.When the not received data time exceedes the inactive thresholding of described UE discontinuous receiving cycle of setting, new data receives and can only receive on the Burst slot of next cycle; If there is data receiver, can receive continuously until data receiver is complete.

Visible, business configuration on described UE uplink downlink is identical pattern by above two kinds of collocation methods simultaneously, when being configured to DTX/DRX pattern 2, the transmission delay of business at uplink downlink of UE can be reduced simultaneously, therefore can improve the QoS of business further.

If business configuration is R6 pattern, and the ascending load of community, described UE place exceedes the load-threshold of setting, and community, R7 business place is when having enough channel resources, the R6 business of described UE is reconfigured to community, R7 business place, when being R7 business by described R6 business configuration, the reduction ascending load described in above-described embodiment can be performed and reduce the method for transmission delay, to improve the QoS of business, and reduce the cutting off rate of UE.

Be understandable that, in embodiments of the present invention, can activate according to the business of the concrete condition of the network operation to described UE uplink downlink the business being in DTX pattern 1 of UE, deactivating operation.By carrying out activation manipulation to the business of UE uplink downlink, the load of up link can be reduced further; By carrying out deactivating operation to the business on UE uplink downlink, the transmission delay of described business can be reduced.

And for being in the UE of the business running DTX/DRX state of activation, if exceed the time threshold that pre-sets without any business data transmission, and the UE quantity running described business arrange more than DTX/DRX pattern UE number time, the UE of some low priorities can be selected, and discharge traffic channel resource corresponding to these UE, enter into cell forward access channel (CELL_FACH, CELL_Forword AccessChannel) state, make UE enter into the pattern of power saving more.Such as, if UE is divided into high, medium and low Three Estate, priority can be selected to be low all or part of UE, discharge the traffic channel resource that these UE are corresponding, and cell operation state to enter into CELL_FACH state.With reference to Fig. 2, it is embodiment of the present invention small area operating state transition graph.Base station cell can when meeting the condition pre-set from a kind of state transition to another kind of state.When base station cell moves to CELL_FACH state, UE can be made to be in energy-saving mode; And when the business of base station cell is in DTX/DRX pattern, have activation and deexcitation two states.When the business of base station cell is in DTX/DRX pattern 1, be in state of activation and deactivation status then can reduce ascending load to some extent.According to the concrete condition of the network operation, described community also can switch back CELL_DCH state from CELL_FACH state.

And when base station supports that R99 and R7 business coexists, or when the UE switching of R99 business enters R7 community, as whether, described business reprovision can be set to the Rule of judgment of R7 business according to the discontinuity intensity of R99 business, when the discontinuity intensity of R99 business exceedes the discontinuity strength threshold of setting, described R99 business can be reconfigured on community, R7 business place, to enter DTX/DRX pattern ready for business.The time that so-called discontinuity stress refers to the discontinuous transmission of UE or receives business datum account for total transmitting time number.

And, when the business configuration in described UE up link is DTX pattern 1, if when ascending load activates load-threshold higher than the pressure arranged, can forbid carrying out DTX deactivating operation to the business in UE up links all in community, and select several UE being in DTX deactivation status to carry out pressure DTX activation manipulation, to reduce the ascending load of described community.

And when the ascending load of community is lower than the permission deexcitation load-threshold arranged, then allow to perform DTX deactivating operation to the business in UE up link.Can arrange maximum permission deexcitation UE number N (N be more than or equal to 0 integer), each judgement cycle only allows the at most simultaneously N number of UE of deexcitation, to reduce the impact to UE place ascending load of cell.

And when the ascending load of community, UE place is in the scope allowing deexcitation, DTX deactivating operation can be carried out according to different types of service to the business in UE up link.

With reference to Fig. 3, for DTX/DRX in the embodiment of the present invention activates & deactivation status realization flow figure, be understandable that there is no certain ordinal relation between various state transition, each step is all describe from a kind of state transition to another kind of state, specific as follows:

S301, R99 business, when business discontinuity intensity is lower than the discontinuity strength threshold arranged, can be configured to R7 business.

If when R99 business can only be supported in base station, S302 place, then keep original R99 business configuration.

S303, for configuration R7 business, if the ascending load of community, UE place higher than arrange the first load-threshold time, by the R7 business configuration on described UE uplink downlink to DTX/DRX pattern 1.

S304, when community, UE place ascending load lower than arrange the second load-threshold time, by the R7 business configuration of described UE to DTX/DRX pattern 2, described second load-threshold is less than or equal to the first load-threshold.

S305, for the R7 business being in DTX/DRX pattern 1, when community, described UE place ascending load lower than arrange the 3rd load-threshold time, by the R7 business configuration of described UE to DTX/DRX pattern 2;

S306, for the R7 business being in DTX/DRX pattern 2, when community, described UE place ascending load higher than arrange the 4th load-threshold time, by the R7 business configuration of described UE to DTX/DRX pattern 1.

Be understandable that, the different type of service of R7 business can also be distributed to according to the concrete condition of the network operation, and according to type of service, the up link of business and down link be arranged respectively, to improve the QoS of business further.

Such as, can be dispatching services or non-scheduling service by the business configuration of UE up link as required.So-called dispatching services, refers to the business of being undertaken dispatching by strengthening dedicated channel scheduled transmission mandate (E-DCH ScheduledTransmission Grant) cell through uplink scheduling control method.Non-scheduling service strengthens the mandate of dedicated channel non-scheduled transmission by arranging, the maximum number bits of the every MAC-e PDU of non-scheduled transmission is comprised in (E-DCH Non-ScheduledTransmission Grant) cell, (Maximum Number of Bits per MAC-e PDU forNon-scheduled Transmission) and 2ms non-scheduled grant HARQ process are distributed, (HARQProcess Allocation For 2msNon-ScheduledTransmission Grant) information carries out the business of service communication.

Can also be delay sensitive business or the non-sensitive business of time delay as required by the business configuration on UE down link.

Delay sensitive business refers to that time-delayed sensitive data has definitely higher than the business of the dispatching priority of flow-sensitive data, and the non-sensitive business of time delay mainly pays close attention to the business of flow-sensitive.

Therefore be descending delay sensitive business by the business configuration on UE down link, make the performance index of business on UE down link can reach user's requirement, reduce the transmission delay of business datum on UE down link, thus the QoS of business can be improved.

Such as, for the voice (VoIP be based upon on Internet protocol, Voice over InternationalProtocol) business, generally that 20ms cycle voice packet sends the cycle, in 20ms, general can send a TTI (3 time slots) packet, and in 20ms, contain 5 TTI (2ms configuration), remain in 4 TTI except retransmission data, do not have new Packet Generation.Therefore, for VoIP business, pattern 1 collocation form can be adopted, send packet and strictly send on pattern Burst slot, thus reduce at the too much invalid time slot of non-sent time NodeB and UE monitoring, specifically can be configured by the following method:

If the ascending load of community, UE place is higher than the first load-threshold arranged, can be up link non-scheduling service DTX pattern 1 by the business configuration in described UE up link, be downlink delay sensitive traffic DRX mode 1 by the business configuration on UE down link;

If the ascending load of community, described UE place is lower than the second load-threshold arranged, can be up link non-scheduling service DTX pattern 2 by the business configuration in described UE up link, be downlink delay sensitive traffic DRX mode 2 by the business configuration on described UE down link.

For HTML (Hypertext Markup Language) (HTTP, Hyper Text Transport Protocol) business, be with the different characteristics of VoIP business, HTTP business may send without any the time long period, and the time sending data is more concentrated, for this feature, can configure as follows:

If the ascending load of community, UE place is higher than the first load-threshold arranged, can be uplink scheduling business DTX pattern 1 by the business configuration in described UE up link, be down link non-delay sensitive business DRX mode 1 by the business configuration on described UE down link;

If the ascending load of community, UE place is lower than the second load-threshold arranged, can be uplink scheduling business DTX pattern 2 by the business configuration in described UE up link, be down link non-delay sensitive business DRX mode 2 by the business configuration on described UE down link.

And for stream business, according to its up-downgoing transfer of data feature, then can configure as follows:

If the ascending load of community, UE place is higher than the first load-threshold arranged, can be uplink scheduling business DTX pattern 1 by the business configuration in described UE up link, be downlink delay sensitive traffic DRX mode 1 by the business configuration on described UE down link;

If the ascending load of community, UE place is lower than the second load-threshold arranged, can be uplink scheduling business DTX pattern 2 by the business configuration in described UE up link, be downlink delay sensitive traffic DRX mode 2 by the business configuration on described UE down link.

Activation manipulation can also be carried out to business UE being in DTX/DRX pattern 1 to reduce the ascending load of community, UE place further, or carry out deactivating operation to reduce business datum transmission delay on described UE.

With reference to Fig. 4, be business collocation method two schematic diagram based on ascending load in the embodiment of the present invention, the method is configured based on the ascending load of community, UE place, and concrete steps are as follows:

S401, when the ascending load of community, UE place is higher than " DTX force activate load-threshold ", base station (NodeB) selection part does not perform the UE of DTX activation manipulation, enforces DTX activation manipulation to the business in described UE up link; NodeB allows UE DTX deexcitation number PermDeactUeNum=0 by arranging simultaneously, forbids the judgement and the operation that the business in UE up links all in community are performed to DTX deexcitation;

Can increase on " DTX forces to activate load-threshold " basis and activate DTX sluggishness (Activate DTXHysteresis), Activate DTX Hysteresis can be arranged as required flexibly finely tune " DTX forces to activate load-threshold ", described Activate DTX Hysteresis can be set on the occasion of, also can be set to negative value, also can be set to 0.In Fig. 4, Activate DTX Hysteresis=0.

After S402, certain time length (time T), if the current ascending load in community is still higher than " DTX forces to activate load-threshold ", then selection part again does not perform the UE of DTX activation manipulation, performs DTX activation manipulation to the business in described UE up link; Simultaneously in order to prevent the invalid action of NodeB, when " part UE number " that NodeB once selects is not enough, NodeB no longer repeats to select UE to perform activation manipulation;

S403, repeat step S402, until the current ascending load in community is lower than " DTX force activate load-threshold " or cannot choose suitable UE;

S404, when ascending load of cell is lower than " allow DTX deexcitation load-threshold ", NodeB allows deexcitation UE number PermDeactUeNum=MaxPermDeactUeNum by arranging, and allows the judgement and the operation that the business in all UE up links are performed to deexcitation DTX.

Deexcitation DTX sluggishness (Deactivate DTX Hysteresis) can be increased on " allowing DTX deexcitation load-threshold " basis to finely tune " allowing DTX deexcitation load-threshold ", can Deactivate DTX Hysteresis be set as required flexibly, described Deactivate DTXHysteresis can be set to, on the occasion of, negative value, also can be set to 0.Deactivate DTXHysteresis=0 in Fig. 4.

Be understandable that, described sequence of steps is only based on the load curve change schematic diagram shown in Fig. 4, but, no matter concrete curve, as long as when the ascending load of community, UE place constantly increases and exceedes " DTX forces to activate thresholding " of setting, the business on UE in up link then can be selected to carry out DTX activation, forbid that the business in all UE up links performs DTX deactivating operation simultaneously.When the ascending load of community, UE place constantly reduce and not lower than " allowing DTX deexcitation load-threshold " of arranging time, NodeB can select UE equally, and DTX activation manipulation is performed to the business in described UE up link, forbid that the business in the up link of all UE performs DTX deactivating operation simultaneously.And when the load of community, UE place is lower than " allowing DTX deexcitation load-threshold " of arranging, allow the business in all UE up links to perform judgement and the operation of DTX deexcitation.When the ascending load of community, UE place constantly increase and lower than " allowing DTX to force to activate load-threshold " of arranging time, allow to perform DTX deactivating operation to the business in described UE up link.

When UE has multiple business, these business can be called composite service, below illustrate when the business number of UE is more than one, how carry out activating, deactivating operation:

First, for Added Business, only have Added Business and all business all support DTX/DRX pattern configurations before time, just can carry out DTX/DRX pattern configurations, otherwise, exit DTX/DRX pattern configurations.

For composite service, need the situation performing deactivating operation as follows:

When certain business in UE up link meets the DTX deexcitation condition of setting, the business on described UE up link and down link is all performed deactivation status and enters DTX deexcitation/DRX deactivation status;

When the business in UE up link is in DTX state of activation, and in UE down link composite service, have at least a business to meet the deexcitation condition of setting, then all business on described UE down link all performed DRX deactivation status and enter DRX deactivation status.

For composite service, need the situation performing activation manipulation as follows:

When business all in UE up link all meet the DTX activation condition arranged, each business in UE up link just can enter DTX state of activation.Now, each business on down link is still in DRX deactivation status, and when the DRX activation condition of follow-up satisfied setting, business corresponding on down link enters DRX state of activation.

When all business in UE up link are in DTX state of activation, and when all business on described UE down link all meet the DRX activation condition arranged, allow perform DRX activation manipulation to the business on described UE down link and enter DRX state of activation.

The deactivating operation of DTX is determined by factors such as traffic carrying capacity, number of retransmissions, time delay, dispatching methods, controlling party rule based on load can trigger DTX in the situation that load is higher forces activation manipulation, and periodically set out the UE number of DTX deexcitation in the DTX activation/deactivation operating process allowing the number PermDeactUeNum of UE of the deexcitation of DTX to limit based on QoS, illustrate below by way of specific embodiment:

1, for uplink scheduling business such as HTTP business: if the uplink scheduling business in UE up link is in DTX state of activation, the judgement of deexcitation condition can be carried out by event triggered fashion, with reference to Fig. 5, for business collocation method in the embodiment of the present invention three flow chart, concrete steps are as follows:

S501, whole enhancing dedicated channel cache condition (TEBS, the Total E-DCH Buffer State) information obtained in up-to-date business instruction (SI, Service Indication) message reported;

S502, obtain the guaranteed rate Vgbr of effective speed Veffective when receiving described SI message and current business place cell uplink;

S503, judge whether TEBS > max (Veffective*T, Vgbr*T) sets up, if set up, then perform step S504, otherwise process ends, wherein T represents the judgement cycle;

S504, HS-SCCH signaling is joined in HS-SCCH signaling outgoing queue, DTX pattern 1 deexcitation/DRX mode 1 deexcitation indication information is carried in described signaling, and mark current time stamp (when described HS-SCCH signaling sends successfully, DTX pattern 1 state arranging all business in UE up link is deactivation status, and DRX mode 1 state arranging all business on UE down link is deactivation status).

The HS-SCCH signaling carrying DTX pattern 1 deexcitation/DRX mode 1 deexcitation indication information is joined in HS-SCCH signaling outgoing queue, and mark current time stamp, make this signaling can send to UE within a certain period of time, make UE be DTX pattern 1 deactivation status by all business configuration in up link, all business configuration on down link are DRX mode 1 deactivation status.

Below introduce the DTX pattern 1 activation manipulation flow process of uplink scheduling business, certain uplink scheduling business in described UE up link is in DTX pattern 1 deactivation status, the mode that can be judged by the cycle carries out activation condition judgement to described business, with reference to Fig. 6, for business collocation method in the embodiment of the present invention three flow chart, concrete steps are as follows:

S601, acquisition transfer of data ratio Pdatatrans;

Such as, the ratio of carrying out transfer of data that is scheduled can be added up in 100 Transmission Time Intervals (TTI, Transfer Time Interval) and realize, that is:

Pdatatrans＝NumTTI _datatrans/100；

S602, cycle, when arriving, judge whether Pdatatrans < 10% sets up, if set up, then perform step S603; Otherwise process ends;

Whether S603, the state judging other business in UE up link are DTX pattern 1 state of activation, if DTX pattern 1 state of other all business is DTX pattern 1 state of activation in UE up link, then perform step S604; If DTX pattern 1 state of other business is not DTX pattern 1 state of activation entirely in UE up link, then perform step S605;

S604, HS-SCCH signaling is joined in HS-SCCH signaling outgoing queue, DTX pattern 1 is carried to activate/DRX mode 1 deexcitation indication information in described signaling, and mark current time stamp (when described HS-SCCH signaling sends successfully, all business DRX mode 1 states on UE down link that arrange are deactivation status);

UE can activate/DRX mode 1 deexcitation indication information according to the DTX pattern 1 of carrying in HS-SCCH signaling, be DTX pattern 1 state of activation by all business settings in described UE up link, and on down link, all business settings are DRX mode 1 deactivation status.

S605, DTX pattern 1 state arranging described uplink scheduling business are state of activation.

2, for up link non-scheduling services such as VoIP business: if certain the up link non-scheduling service in UE up link is in DTX state of activation, the judgement of deexcitation condition can be carried out to described business by event triggered fashion, each packet loss just judges, with reference to Fig. 7, for business collocation method in the embodiment of the present invention four flow chart, concrete steps are as follows:

S701, obtain the number of dropped packets Nfail caused owing to reaching maximum transmission times;

S702, to judge in cycle T 1 that Nfail is greater than set point x and whether set up, if set up, then perform step S703; Otherwise process ends;

Such as, setting cycle T1 is 5s, set point x is 5, then judge whether Nfail > 5 sets up.

S703, HS-SCCH signaling is joined in HS-SCCH signaling outgoing queue, DTX pattern 1 deexcitation/DRX mode 1 deexcitation indication information is carried in described signaling, and mark current time stamp (when described HS-SCCH signaling sends successfully, DTX pattern 1 state arranging all business in described UE up link is deactivation status, and on down link, DRX mode 1 state of all business is deactivation status).

UE can according to the DTX pattern 1 deexcitation/DRX mode 1 deexcitation indication information carried in HS-SCCH signaling, be DTX pattern 1 state of activation by all business settings in described UE up link, all business settings on down link are DRX mode 1 deactivation status.

Below introduce the DTX activation manipulation flow process of up link non-scheduling service, certain up link non-scheduling service in UE up link is in DTX deactivation status, the mode that can be judged by the cycle carries out activation condition judgement, with reference to Fig. 8, for business collocation method in the embodiment of the present invention five flow chart, concrete steps are as follows:

S801, obtain the number of dropped packets Nfail caused owing to reaching maximum transmission times;

S802, judging in cycle T 2, whether Nfail sets up in equaling set point y, if set up, then performing step S803; Otherwise process ends;

Such as, setting cycle T2 is 5s, set point y is 1, then judge whether Nfail≤1 sets up.

Whether S803, DTX pattern 1 state judging other business in UE up link are DTX pattern 1 state of activation, if other all business is DTX pattern 1 state of activation entirely in UE up link, then perform step S804; If other business is not DTX pattern 1 state of activation entirely in up link, then perform step S805;

S804, HS-SCCH signaling is joined in HS-SCCH signaling outgoing queue, DTX pattern 1 is carried to activate/DRX mode 1 deexcitation indication information in described signaling, and mark current time stamp (when described HS-SCCH signaling sends successfully, DRX mode 1 state arranging all business on UE down link is deactivation status);

/ DRX mode 1 deexcitation indication information is activated according to the DTX pattern 1 of carrying in HS-SCCH signaling, being DTX pattern 1 state of activation by all business settings in described UE up link, is DRX mode 1 deactivation status by all business settings on described UE down link.

S805, DTX pattern 1 state arranging described up link non-scheduling service are state of activation.

3, for descending delay sensitive business such as VoIP business, stream business: if certain the descending delay sensitive business on UE down link is in DRX state of activation, the judgement of deexcitation condition can be carried out by event triggered fashion, have at every turn and just judge because abandoning time (Discard Time) time-out, with reference to Fig. 9, for business collocation method in the embodiment of the present invention six flow chart, concrete steps are as follows:

S901, obtain because Discard Time time-out abandons the number Numdiscard of dedicated medium access control (MAC-d, MediumControl-Dedicated) Packet Data Unit (PDU, Packet Data Unit);

S902, judge whether the number of MAC-d PDU abandoned in cycle T 3 internal cause Discard Time time-out is greater than the number m of setting, if be greater than, then performs step S903; Otherwise, process ends.

As T3 being set to 5s, m is set to 5.

Whether S903, the DTX state judging described descending delay sensitive business in UE up link are state of activation, if so, then perform step S904; Otherwise process ends;

S904, HS-SCCH signaling is joined in HS-SCCH signaling outgoing queue, carry DTX pattern 1 in described signaling and activate/DRX mode 1 deexcitation indication information, and mark current time stamp (when described HS-SCCH signaling sends successfully, DRX mode 1 state arranging all business on UE down link is deactivation status).

UE activates/DRX mode 1 deexcitation indication information according to the DTX pattern 1 of carrying in HS-SCCH signaling, is DTX pattern 1 state of activation/DRX mode 1 deactivation status by all business settings of described UE.

Below introduce the DRX activation manipulation flow process of downlink delay sensitive traffic, certain downlink delay sensitive traffic on UE down link is in DRX deactivation status, the mode that can be judged by the cycle carries out activation condition judgement, with reference to Figure 10, for business collocation method in the embodiment of the present invention seven flow chart, concrete steps are as follows:

S1001, obtain and abandon the number Numdiscard of MAC-d PDU because Discard Time time-out;

S1002, judge whether the number of MAC-d PDU abandoned in cycle T 4 internal cause Discard Time time-out is less than the number n of setting, if be less than, then performs step S1003; Otherwise, process ends;

As T4 being set to 5s, n is set to 1.

Whether S1003, DTX pattern 1 state judging described descending delay sensitive business in current UE up link are state of activation, if so, then perform step S1004; Otherwise process ends;

Whether S1004, DRX mode 1 state judging other business on UE down link are DRX mode 1 state of activation entirely, if DRX mode 1 state of other business be DRX mode 1 state of activation entirely on UE down link, then and execution step S1005; If DRX mode 1 state of other business of UE down link is not DRX state of activation entirely, then perform step S1006;

S1005, HS-SCCH signaling to be joined in HS-SCCH signaling outgoing queue, carry in described signaling DTX pattern 1 activate/DRX mode 1 activates indication information, and marks current time stamp;

UE can activate indication information according to DTX activation/DRX entrained in HS-SCCH signaling, and being DTX pattern 1 state of activation by all business settings in UE up link, is DRX mode 1 state of activation by business settings all on UE down link.

S1006, DRX mode 1 state arranging described downlink delay sensitive traffic are DRX mode 1 state of activation.

4, for descending non-delay sensitive business such as HTTP business: if certain the descending non-delay sensitive business on UE down link is in DRX state of activation, the judgement of deexcitation condition can be carried out by event triggered fashion, with reference to Figure 11, for business collocation method in the embodiment of the present invention eight flow chart, concrete steps are as follows:

S1101, acquisition MAC-d quene state;

Different MAC-d quene states can be set according to MAC-d queue length, such as, when MAC-d queue length be greater than set point L1 be less than or equal to maximum time, be referred to as H state, when being greater than set point L2 and being less than L1, be referred to as M state, when being greater than set point L3 and being less than L2, be referred to as L state, when being more than or equal to 0 and being less than L3, be referred to as the tactile end.Be understandable that, this is not unique division methods.

S1102, judge whether MAC-d queue is at least in a H state in cycle T 5, if so, then perform step S1103; Otherwise process ends;

When being in H state, the maximum threshold L1 that described MAC-d queue length is greater than setting is less than or equal to maximum.

Such as T5 can be set to 5s.

Whether S1103, the DTX state judging described descending non-delay sensitive business in UE up link are DTX state of activation, if so, then perform step S1104; Otherwise, process ends;

S1104, HS-SCCH signaling is joined in HS-SCCH signaling outgoing queue, carry DTX pattern 1 in described signaling and activate/DRX mode 1 deexcitation indication information, and mark current time stamp (when described HS-SCCH signaling sends successfully, all business DRX mode 1 states on UE down link that arrange are deactivation status).

Activate/DRX mode 1 deexcitation indication information owing to carrying DTX pattern 1 in described HS-SCCH signaling, all business settings of UE can be DTX pattern 1 state of activation/DRX mode 1 deactivation status according to described indication information by UE.

DRX mode 1 state of business all on UE down link is set to deactivation status and can reduces business propagation delay time on the uplink.

Below introduce the DRX activation manipulation flow process of the non-delay sensitive business of down link, certain non-delay sensitive business on UE down link is in DRX deactivation status, the mode that can be judged by the cycle carries out activation condition judgement, with reference to Figure 12, for business collocation method in the embodiment of the present invention nine flow chart, concrete steps are as follows:

S1201, acquisition MAC-d quene state;

Different MAC-d quene states can be set according to MAC-d queue length, such as, when MAC-d queue length be greater than set point L1 be less than or equal to maximum time, be referred to as H state, when being greater than set point L2 and being less than L1, be referred to as M state, when being greater than set point L3 and being less than L2, be referred to as L state, when being more than or equal to 0 and being less than L3, be referred to as the tactile end.Be understandable that, this is not unique division methods.

S1202, judge whether MAC-d queue is in L state or the tactile end in cycle T 6 always, if so, then perform step S1203; Otherwise process ends;

When being in L state or the tactile end, described MAC-d queue length is less than or equal to the thresholding sub-minimum L2 of setting.

T6 can be arranged as required, such as, can be set to 5s according to the concrete condition of the network operation.

Whether S1203, DTX pattern 1 state judging described non-delay sensitive business in UE up link are state of activation, if so, then perform step S1204; Otherwise process ends;

S1204, judge the DRX state of other business on UE down link, if DRX mode 1 state of other all business is state of activation on UE down link, then perform step S1205; If DRX mode 1 state of other business of UE down link is not state of activation entirely, then perform step S1206;

S1205, HS-SCCH signaling to be joined in HS-SCCH signaling outgoing queue, carry in described signaling DTX pattern 1 activate/DRX mode 1 activates indication information, and marks current time stamp;

UE can activate according to described DTX pattern 1/and DRX mode 1 activates indication information, is DTX pattern 1 state of activation by business settings all in up link, and on down link, all business settings are for being DRX mode 1 state of activation.

S1206, the DRX state arranging described non-delay sensitive business are DRX state of activation.

Be explained in detail with the example that is applied as in R7 version above, be understandable that, the method for above business configuration is also applicable to more than R7 version, no longer illustrates.

Carry out correspondence to the base station equipment corresponding to the method for business configuration in the embodiment of the present invention below to describe:

With reference to Figure 13, be base station equipment in the embodiment of the present invention one structural representation,

This base station comprises: load judgment unit 1301, first dispensing unit 1302, second dispensing unit 1303, wherein:

Load judgment unit 1301, for calculating the ascending load of community, UE place, and when described ascending load is higher than the first load-threshold arranged, trigger the first dispensing unit 1302, when described ascending load is lower than the second load-threshold arranged, trigger the second dispensing unit 1303, described second load-threshold is less than or equal to the first load-threshold;

First dispensing unit 1302, for according to the triggering of load judgment unit 1301 by the business configuration in described UE up link to DTX pattern 1, namely strictly pattern burst on interval sending mode;

Second dispensing unit 1303, for according to the triggering of load judgment unit 1301 by the business configuration in described UE up link to DTX pattern 2, i.e. initial head continuous sending mode in pattern burst;

Described business is third generation partner program the 7th edition above version business of 3GPP R7 or 3GPP R7.

Visible, when the ascending load of this base station equipment in community, UE place is higher than the first load-threshold arranged, by described business configuration to DTX pattern 1, strictly can send business datum on Burst slot, UE can vacate more time slot, thus can reduce ascending load; And ascending load in community, UE place lower than the second load-threshold arranged time, by the business configuration in described UE up link to DTX pattern 2, for DTX pattern 2, send owing to just aiming at Burst slot when first time sends business datum, business datum can be sent continuously after Burst slot, therefore can reduce the business datum transmission delay in UE up link.In summary, the present embodiment both can reduce the ascending load of community to a certain extent, reduced up link transmission delay to a certain extent again, avoided time delay to accumulate and caused data packetloss, therefore, can improve the QoS of business.

Also can be optimized above-mentioned base station equipment, be described below by way of several specific embodiment:

With reference to Figure 14, for base station equipment in the embodiment of the present invention two structural representation, on a upper embodiment basis, also comprise: the 3rd dispensing unit 1401, for when business configuration in described UE up link is to DTX pattern 1, and the ascending load of community, described UE place lower than arrange the 3rd load-threshold time, by the business configuration in described UE up link to DTX pattern 2, described 3rd load-threshold is less than or equal to the first load-threshold.

Visible, this base station equipment can when the ascending load of community, UE place be lower than the 3rd load-threshold arranged, business configuration in described UE up link is converted to DTX pattern 2 from DTX pattern 1, thus uplink time delay can be reduced further, improve the QoS of business.

With reference to Figure 15, for base station equipment in the embodiment of the present invention three structural representation, on base station equipment two basis, also comprise: the 4th dispensing unit 1501, for working as described business configuration to DTX pattern 2, and the ascending load of community, described UE place higher than arrange the 4th load-threshold time, by described business configuration to DTX pattern 1, described 4th load-threshold is more than or equal to the 3rd load-threshold and is less than or equal to the first load-threshold.

Visible, by set 3rd load-threshold and the 4th load-threshold, the mutual conversion of business configuration between DTX/DRX pattern 1 and DTX/DRX pattern 2 on UE can be realized, reduce ascending load and the balance reducing time delay to take into account as much as possible, thus the QoS of further raising business.

Be understandable that, in above each embodiment, when business in UE up link is configured, can also be configured the business on UE down link simultaneously, with reference to Figure 16, be base station equipment in the embodiment of the present invention four structural representation, to carry out expansion explanation on base station equipment one basis, on base station equipment one basis, also can comprise:

5th dispensing unit 1601, for by the business configuration in described UE up link to DTX pattern 1 time, by the business configuration on described UE down link to the discontinuous reception DRX mode 1 of down link;

6th dispensing unit 1602, for by the business configuration in described UE up link to DTX pattern 2 time, by the business configuration on described UE down link to DRX mode 2.

When the business on UE place cell uplink and down link is all in pattern 1, base station can also perform activation manipulation to reduce ascending load to the business in described UE up link, or deactivating operation is performed to reduce time delay to the business on described UE up link and down link, thus realize the balance reducing ascending load and minimizing time delay as much as possible, the QoS of raising business, such as, the base station equipment introduced in the various embodiments described above also can comprise:

First activation manipulation unit, for when business configuration in described UE up link is to DTX pattern 1, and the ascending load of community, described UE place higher than arrange pressure activate load-threshold time, forbid that the business in described community in all UE up links performs DTX pattern 1 deactivating operation, and the UE selecting the business in several up links to be in DTX pattern 1 deactivation status performs pressure DTX pattern 1 activation manipulation.

Base station equipment can comprise: the first deexcitation judging unit, for when business configuration in described UE up link is to DTX pattern 1, and when the ascending load of community, described UE place is lower than the permission deexcitation load-threshold arranged, allow to perform DTX pattern 1 deactivating operation to the business in described UE up link.

Base station equipment can also the type of service of configuration service as required, and such as, on the various embodiments described above basis, base station equipment also can comprise:

First type of service dispensing unit, for being uplink scheduling business or up non-scheduling service by the business configuration in described UE up link as required; And/or

Second type of service dispensing unit, for being descending delay sensitive business or descending non-delay sensitive business as required by the business configuration on described UE down link.

When business configuration is in pattern 1, can also to activate, deactivating operation according to type of service to the business execution pattern 1 on described UE uplink downlink, such as, described base station equipment can comprise:

Second activation manipulation unit, when the business configuration in described UE up link is to DTX pattern 1, and the ascending load of community, described UE place is when being in the scope allowing to activate, according to the first type of service dispensing unit or/and the type of service that configures of the second type of service dispensing unit is to business execution pattern 1 activation manipulation of described UE;

Second deactivating operation unit, when the business configuration in described UE up link is to DTX pattern 1, and the ascending load of community, described UE place is in when allowing the scope of deexcitation, according to the first type of service dispensing unit or/and the type of service that configures of the second type of service dispensing unit is to business execution pattern 1 deactivating operation of described UE.

Described base station equipment also can comprise transmitting element, for sending HS-SCCH signaling to UE within the set time period, carries the deactivating operation indication information obtained from described second deactivating operation unit in described signaling.

Described deactivating operation indication information is specially DTX pattern 1 deexcitation/DRX mode 1 deexcitation indication information, or DRX deexcitation indication information.

In order to described HS-SCCH signaling be sent as early as possible, the dispatching priority of dispatching priority higher than business of HS-SCCH signaling can be set.

In order to allow business as much as possible be in CELL_DCH state, to reduce time delay, and reducing UE cutting off rate, on above each embodiment basis, can also expand as follows:

Such as, described base station equipment also can comprise: the 7th dispensing unit, for exceeding the load-threshold of setting when the ascending load of community, UE place, and 3GPP R7 or community, 3GPP R7 above version business place are when having enough channel resources, the 3GPP R6 business of configuration on described UE is reconfigured to 3GPP R7 or community, 3GPP R7 above version business place.

Base station equipment containing described 7th dispensing unit can exceed the load-threshold of setting at the ascending load of community, UE place, and 3GPP R7 or community, 3GPP R7 above version business place are when having enough channel resources, the 3GPP R6 business of configuration on described UE is reconfigured to 3GPP R7 or community, 3GPP R7 above version business place, and then can DTX/DRX pattern configurations be carried out, and carry out activation deactivating operation in mode 1, thus can time delay be reduced, and reduce the cutting off rate of UE, improve the QoS of business.

Each base station equipment also can comprise above: the 8th dispensing unit, for when the discontinuity intensity of the 3GPPR99 business of configuration exceedes the discontinuity strength threshold of setting on described UE, described 3GPP R99 business is reconfigured to 3GPP R7 or community, 3GPP R7 above version business place.

The described base station equipment including the 8th dispensing unit, when the discontinuity intensity of the 3GPP R99 business that can configure on described UE exceedes the discontinuity strength threshold of setting, described 3GPP R99 business is reconfigured on 3GPP R7 or community, 3GPP R7 above version business place, and then can DTX/DRX pattern configurations be carried out, and carry out activation deactivating operation 1 time in DTX pattern, thus can time delay be reduced, and reduce the cutting off rate of UE, thus improve the QoS of business.

One of ordinary skill in the art will appreciate that all or part of step in the various methods of above-described embodiment is that the hardware that can carry out instruction relevant by program has come, this program can be stored in a computer-readable recording medium, and storage medium can comprise: ROM, RAM, disk or CD etc.

The business collocation method provided the embodiment of the present invention above and equipment are described in detail, apply specific case herein to set forth principle of the present invention and execution mode, the explanation of above embodiment just understands method of the present invention and core concept thereof for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, in sum, this description should not be construed as limitation of the present invention.

Claims (27)

1. a business collocation method, is characterized in that, comprising:

When the ascending load of community, user equipment (UE) place is higher than the first load-threshold pre-set, by the business configuration in described UE up link to discontinuous transmitting DTX first mode, namely strictly pattern burst on interval sending mode, described strictly pattern burst on interval sending mode refer to send data can only strictly send on the Burst slot in each cycle;

When the ascending load of community, described UE place is lower than the second load-threshold pre-set, by the business configuration in described UE up link to DTX second pattern, i.e. initial head continuous sending mode in pattern burst, described initial head continuous sending mode in pattern burst refers to when not having data to send, and not sending data time when exceeding certain thresholding, new data sends and can only send on the Burst slot of next cycle; If there are data to send, can send continuously until data are sent;

Described second load-threshold is less than the first load-threshold; Described business is third generation partner program the 7th edition above version business of 3GPP R7 or 3GPP R7;

By the business configuration in described UE up link to DTX first mode time, comprise further: by the business configuration on described UE down link to down link discontinuous reception DRX first mode, namely strictly pattern burst on interval sending mode; And/or

By the business configuration in described UE up link to DTX the second pattern time, comprise further: by the business configuration on described UE down link to DRX second pattern, i.e. initial head continuous sending mode in pattern burst.

2. business collocation method as claimed in claim 1, is characterized in that, when the business configuration in described UE up link is to DTX first mode, comprise further:

When the ascending load of community, UE place is lower than the 3rd load-threshold pre-set, by the business configuration in described UE up link to DTX second pattern, described 3rd load-threshold is less than or equal to the first load-threshold.

3. business collocation method as claimed in claim 1, is characterized in that, when the business configuration in described UE up link is to DTX the second pattern, comprise further:

When the ascending load of community, described UE place is higher than the 4th load-threshold pre-set, by the business configuration in described UE up link to DTX first mode, described 4th load-threshold is more than or equal to the 3rd load-threshold and is less than or equal to the first load-threshold.

4. the business collocation method as described in any one of claims 1 to 3, is characterized in that, when the business configuration in described UE up link is to DTX first mode, comprises further:

When the ascending load of community, described UE place activates load-threshold higher than the pressure pre-set, forbid performing DTX first mode deactivating operation to the business in UE up links all in community, and the UE selecting several business be in up link to be in DTX first mode deactivation status performs pressure DTX first mode activation manipulation.

5. the business collocation method as described in any one of claims 1 to 3, is characterized in that, when the business configuration in described UE up link is to DTX first mode, comprises further:

When the ascending load of community, described UE place is lower than the permission deexcitation load-threshold arranged, allow to perform DTX first mode deactivating operation to the business in described UE up link.

6. the business collocation method as described in any one of claims 1 to 3, is characterized in that, when the business configuration in described UE up link is to DTX first mode, comprises further:

When the ascending load of community, described UE place is in the scope allowing deexcitation, carry out DTX first mode deactivating operation according to the type of service of business in described UE up link; And/or

When the ascending load of community, described UE place is in the scope allowing to activate, carry out DTX first mode activation manipulation according to the type of service of business in described UE up link.

7. business collocation method as claimed in claim 6, is characterized in that, comprise further:

Be uplink scheduling business or up non-scheduling service by the business configuration in described UE up link; And/or

Be descending delay sensitive business or descending non-delay sensitive business by the business configuration on described UE down link.

8. business collocation method as claimed in claim 7, is characterized in that,

When in described UE up link, certain business meets the DTX first mode deexcitation condition pre-set, be DTX first mode deactivation status by all business configuration in described UE up link.

9. business collocation method as claimed in claim 8, is characterized in that,

When the business configuration in described UE up link is uplink scheduling business, described in the DTX first mode deexcitation condition that pre-sets be: TEBS>max (Veffective*T, Vgbr*T); TEBS is whole enhancing dedicated channel buffer status information, and Veffective is effective speed when receiving the message containing described TEBS information, and Vgbr is the guaranteed rate of described business place cell uplink, and T represents the judgement cycle;

When the business configuration in described UE up link is up non-scheduling service, described in the DTX first mode deexcitation condition that pre-sets for: the number of dropped packets caused owing to reaching maximum transmission times obtained in set cycle T 1 is less than set point.

10. business collocation method as claimed in claim 7, is characterized in that,

When the business in described UE up link is in DTX first mode state of activation, and when described UE down link having at least a business meet the DRX first mode deexcitation condition of setting, be DRX first mode deactivation status by all business configuration on described UE down link.

11. business collocation methods as claimed in claim 10, is characterized in that,

When the business configuration on described UE down link is descending delay sensitive business, the DRX first mode deexcitation condition of described setting is: set cycle T 3 internal cause abandons the number m that the number of dedicated medium access control Packet Data Unit MAC-d PDU that time time-out abandons is greater than setting;

When the business configuration on described UE down link is descending non-delay sensitive business, the DRX first mode deexcitation condition of described setting is: in set cycle T 5, MAC-d queue length is in H state at least one times, described in be in H state and represent that MAC-d queue length is more than or equal to set maximum threshold and is less than or equal to the maximum of queue length.

12. business collocation methods as claimed in claim 7, is characterized in that, when all business in described UE up link all meet the DTX first mode activation condition arranged, are DTX first mode state of activation by all business configuration in described UE up link.

13. business collocation methods as claimed in claim 12, is characterized in that,

When the business configuration in described UE up link is uplink scheduling business, the DTX first mode activation condition of described setting for: the transfer of data ratio obtained is less than set point;

When the business configuration in described UE up link is up non-scheduling service, the DTX first mode activation condition of described setting for: the number of dropped packets caused due to maximum transmission times obtained in cycle T 2 is less than or equal to set point.

14. business collocation methods as claimed in claim 7, it is characterized in that, when the business in described UE up link is in DTX first mode state of activation, and when all business all meet the DRX first mode activation condition arranged on described UE down link, allow the business on described UE down link to carry out DRX first mode activation manipulation.

15. business collocation methods as claimed in claim 14, is characterized in that,

When the business configuration on described UE down link is descending delay sensitive business, the DRX first mode activation condition of described setting is: cycle T 4 internal cause abandons the time overtime number abandoning MAC-d PDU and is less than set point n;

When the business configuration on described UE down link is descending non-delay sensitive business, the DRX first mode activation condition of described configuration for: the MAC-d quene state obtained in cycle T 6 is in L state or the tactile end always, described in be in L state or the tactile end represents that MAC-d queue length is less than or equal to the thresholding sub-minimum of setting.

16. business collocation methods as described in any one of claims 1 to 3, is characterized in that, comprise further:

Ascending load when community, described UE place exceedes the load-threshold pre-set, and 3GPP R7 or community, 3GPP R7 above version business place are when having enough channel resources, the 3GPP R6 business on described UE is reconfigured to 3GPP R7 or community, 3GPP R7 above version business place.

17. business collocation methods as described in any one of claims 1 to 3, is characterized in that, comprise further:

When the discontinuity intensity of the 3GPP R99 business of configuration exceedes the discontinuity strength threshold pre-set on described UE, the 3GPP R99 business on described UE is reconfigured to 3GPP R7 or community, 3GPP R7 above version business place.

18. business collocation methods as described in any one of claims 1 to 3, is characterized in that, comprise further:

When the business of described UE is in DTX/DRX state of activation, if the time threshold exceeding setting send without any business and the UE number arranged more than DTX/DRX pattern time, select priority to discharge the traffic channel resource of its correspondence lower than the UE of priority threshold arranged, and enter into cell forward access channel CELL_FACH state.

19. 1 kinds of base station equipments, is characterized in that, comprising: load judgment unit, the first dispensing unit, the second dispensing unit, wherein:

Load judgment unit, for calculating the ascending load of community, UE place, and when described ascending load is higher than the first load-threshold arranged, trigger the first dispensing unit, when described ascending load is lower than the second load-threshold arranged, trigger the second dispensing unit, described second load-threshold is less than the first load-threshold;

First dispensing unit, for according to the triggering of load judgment unit by the business configuration in described UE up link to uplink discontinuous transmitting DTX first mode, namely strictly pattern burst on interval sending mode, described strictly pattern burst on interval sending mode refer to send data can only strictly send on the Burst slot in each cycle;

Second dispensing unit, for according to the triggering of load judgment unit by the business configuration in described UE up link to DTX second pattern, i.e. initial head continuous sending mode in pattern burst, described initial head continuous sending mode in pattern burst refers to when not having data to send, and not sending data time when exceeding certain thresholding, new data sends and can only send on the Burst slot of next cycle; If there are data to send, can send continuously until data are sent;

Described base station equipment, is characterized in that, comprises further:

5th dispensing unit, for by the business configuration in described UE up link to DTX first mode time, by the business configuration on described UE down link to down link discontinuous reception DRX first mode, namely strictly pattern burst on interval send first mode;

6th dispensing unit, for by the business configuration in described UE up link to DTX the second pattern time, by the business configuration on described UE down link to DRX second pattern, i.e. initial head continuous sending mode in pattern burst;

Described business is third generation partner program the 7th edition above version business of 3GPP R7 or 3GPP R7.

20. base station equipments as claimed in claim 20, it is characterized in that, comprise further: the 3rd dispensing unit, for when business configuration in described UE up link is to DTX first mode, and the ascending load of community, described UE place lower than arrange the 3rd load-threshold time, by the business configuration in described UE up link to DTX second pattern, described 3rd load-threshold is less than or equal to the first load-threshold.

21. base station equipments as claimed in claim 21, it is characterized in that, comprise further: the 4th dispensing unit, for when business configuration in described UE up link is to DTX second pattern, and the ascending load of community, described UE place higher than arrange the 4th load-threshold time, described UE is configured to DTX first mode, and described 4th load-threshold is more than or equal to the 3rd load-threshold and is less than or equal to the first load-threshold.

22. base station equipments as described in any one of claim 19 to 21, is characterized in that, comprise further:

First activation manipulation unit, for when business configuration in described UE up link is to DTX first mode, and the ascending load of community, described UE place higher than arrange pressure activate load-threshold time, forbid performing DTX first mode deactivating operation to the business in described UE up link, and the UE selecting the business in several up links to be in DTX first mode deactivation status carries out pressure DTX first mode activation manipulation.

23. base station equipments as described in any one of claim 19 to 21, is characterized in that, comprise further:

First deexcitation judging unit, for when business configuration in described UE up link is to DTX first mode, and when the ascending load of community, described UE place is lower than the permission deexcitation load-threshold arranged, allow to perform DTX first mode deactivating operation to the business in described UE up link.

24. base station equipments as described in any one of claim 19 to 21, is characterized in that, comprise further:

First type of service dispensing unit, for being uplink scheduling business or up non-scheduling service by the business configuration in described UE up link;

Second type of service dispensing unit, for by the business configuration on described UE down link being descending delay sensitive business or descending non-delay sensitive business.

25. base station equipments as claimed in claim 24, is characterized in that, comprise further:

Second activation manipulation unit, when the business configuration in described UE up link is to DTX first mode, and the ascending load of community, described UE place is when being in the scope allowing to activate, according to the first type of service dispensing unit or/and the type of service that configures of the second type of service dispensing unit performs first mode activation manipulation to the business of described UE.

Second deactivating operation unit, when the business configuration in described UE up link is to DTX first mode, and the ascending load of community, described UE place is in when allowing the scope of deexcitation, according to the first type of service dispensing unit or/and the type of service that the second type of service dispensing unit configures performs first mode deactivating operation to the business of described UE.

26. base station equipments as described in any one of claim 19 to 21, it is characterized in that, comprise further: the 7th dispensing unit, for exceeding the load-threshold of setting when the ascending load of community, UE place, and 3GPP R7 or community, 3GPP R7 above version business place are when having enough channel resources, the 3GPP R6 business on described UE is reconfigured to 3GPP R7 or community, 3GPP R7 above version business place.

27. base station equipments as described in any one of claim 19 to 21, it is characterized in that, comprise further: the 8th dispensing unit, for when the discontinuity intensity of the 3GPP R99 business of configuration exceedes the discontinuity strength threshold of setting on described UE, described 3GPP R99 business is reconfigured to 3GPP R7 or community, 3GPP R7 above version business place.