CN105744546A - DRX parameter processing method and apparatus, base station, and RRC - Google Patents

Abstract

The invention discloses a discontinuous reception (DRX) parameter processing method and apparatus, a base station, and a radio resource control (RRC). The method comprises: a service signal from user equipment (UE) is received, whether enabling transmission time interval (TTI) bundling is realized is determined according to the service signal, and if so, a DRX parameter in an enabling TTI bundling state is determined for the UE; and/or if not, a DRX parameter in a disenabling TTI bundling state is determined for the UE. According to the invention, a problem of poor QoS experience of UE on the condition of a poor network signal according to correlated techniques can be solved.

Description

DRX parameter processing method, device, base station and RRC

Technical field

The present invention relates to the communications field, specifically, relate to a kind of discontinuous reception (DiscontinuousReception, referred to as DRX) parameter processing method, device, base station and radio resource controller (RadioResourceControl, referred to as RRC).

Background technology

At third generation partner program (3rdGenerationProject, referred to as 3GPP) Long Term Evolution project system in, DRX is introduced under RRC connected state, DRX refers to terminal discontinuous reception descending scheduling and downlink data, when not needing downlink data receiving, terminal may be at resting state, and the radio frequency unit of terminal even other processing units can not work, thus reaching the purpose of power saving.DRX function is the function that each operation commercial city is liked very much, because the electricity saving UE is a good selection.

Transmission time interval bonding (TransmissionTimeIntervalBundling, bind referred to as TTI) it is in multiple continuous print subframes, repeatedly send same transmission block (TransportBlock, referred to as TB), without etc. to be confirmed/do not confirm the technology of (Acknowledge/Nacknowledge, referred to as ACK/NACK).After introducing TTI binding, owing to bind 4 sub-frame of uplink transmission, obtain relief area report (BufferStatusReport, referred to as BSR), and TTI binding generally just enables at cell edge.

In order to ensure service quality (QualityofService, referred to as the QoS) performance of subscriber equipment (UserEquipment, referred to as UE) under TTI binding, it is necessary to sacrifice certain or whole electric energy, promote QoS performance.

Therefore, in the related, introduce after more multi-functional (such as, TTI function, and DRX function) at network, the problem how improving the Experience Degree of user in more multi-functional, not yet propose effective solution at present.

Summary of the invention

The invention provides a kind of discontinuous reception DRX parameter processing method, device, base station and radio resource controller RRC, at least to solve in correlation technique, more multi-functional (such as in network introducing, TTI function, and DRX function) after, owing to there is conflict, the problem causing affecting Consumer's Experience between function.

According to an aspect of the present invention, provide a kind of discontinuous reception DRX parameter processing method, including: receive the service signal from user equipment (UE), judge whether to enable Transmission Time Interval TTI binding according to service signal, when judged result is for being, determine the DRX parameter enabled under TTI binding state for UE；And/or, when judged result is no, determine the DRX parameter enabled under TTI binding state for UE.

Preferably, judge whether that enabling TTI binding includes according to service signal: judge that according to service signal whether the Signal to Interference plus Noise Ratio of up single radio bearer RB of UE is less than predetermined enable threshold value, when judged result is for being, enable TTI binding；And/or, when judged result is no, go to enable TTI binding.

Preferably, determine that the DRX parameter enabled under TTI binding state includes one of for UE: determine that for closing parameter corresponding to DRX function be DRX parameter, it is determined that being used for performing the first predefined parameter corresponding to predetermined DRX function is DRX parameter.

Preferably, determine that the DRX parameter enabled under TTI binding state includes one of for UE: determine that enabling corresponding parameter before TTI binding state is DRX parameter, it is determined that be DRX parameter for performing the second predefined parameter corresponding to predetermined DRX function.

Preferably, the DRX parameter enabled under TTI binding state is determined for UE；And/or, after determining, for UE, the DRX parameter enabled under TTI binding state, also include: carry out data processing according to the DRX parameter determined.

According to a further aspect in the invention, provide a kind of discontinuous reception DRX parameter processing apparatus, including: receiver module, for receiving the service signal from user equipment (UE), judge module, for judging whether to enable Transmission Time Interval TTI binding according to service signal, first determines module, for when judged result is for being, determining the DRX parameter enabled under TTI binding state for UE；And/or, second determines module, for when judged result is no, determining the DRX parameter enabled under TTI binding state for UE.

Preferably, judge module includes: judging unit, for judging that according to described service signal the Signal to Interference plus Noise Ratio of the up single radio bearer RB of UE is whether less than predetermined enable threshold value, enable control unit, for when the judged result of judging unit is for being, enabling TTI binding；And/or, when the judged result of judging unit is no, go to enable TTI binding.

Preferably, first determines that module includes one below: first determines unit, and for determining that for closing parameter corresponding to DRX function be DRX parameter, second determines unit, for determining that for performing the first predefined parameter corresponding to predetermined DRX function be DRX parameter.

Preferably, second determines that module includes one below: the 3rd determines unit, for determining that enabling parameter corresponding before TTI binding state is DRX parameter, the 4th determines unit, for determining that for performing the second predefined parameter corresponding to predetermined DRX function be DRX parameter.

Preferably, this device also includes: processing module, for carrying out data processing according to the DRX parameter determined.

Further aspect according to the present invention, it is provided that a kind of base station, including the device of any of the above-described.

Further aspect according to the present invention, it is provided that a kind of radio resource controller RRC, including the device of any of the above-described.

By the present invention, adopt and receive the service signal from user equipment (UE), judge whether to enable Transmission Time Interval TTI binding according to service signal, when judged result is for being, determine the DRX parameter enabled under TTI binding state for UE；And/or, when judged result is no, determine the DRX parameter enabled under TTI binding state for UE, solve in correlation technique, more multi-functional (such as in network introducing, TTI function, and DRX function) after, in the problem of the more multi-functional middle Experience Degree improving user, and then reach according to network environment, adjust corresponding function parameter, thus improving the effect of Consumer's Experience.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes the part of the application, and the schematic description and description of the present invention is used for explaining the present invention, is not intended that inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is a kind of discontinuous flow chart receiving DRX parameter processing method according to embodiments of the present invention；

Fig. 2 is a kind of discontinuous structured flowchart receiving DRX parameter processing apparatus according to embodiments of the present invention；

Fig. 3 is the discontinuous according to the preferred embodiment of the invention preferred structure block diagram one receiving DRX parameter processing apparatus；

Fig. 4 is the discontinuous according to the preferred embodiment of the invention preferred structure block diagram two receiving DRX parameter processing apparatus；

Fig. 5 is the discontinuous according to the preferred embodiment of the invention preferred structure block diagram three receiving DRX parameter processing apparatus；

Fig. 6 is the discontinuous according to the preferred embodiment of the invention preferred structure block diagram four receiving DRX parameter processing apparatus；

Fig. 7 is the structured flowchart of base station according to embodiments of the present invention；

Fig. 8 is the structured flowchart according to radio resource controller RRC of the invention process；

Fig. 9 is the discontinuous according to the preferred embodiment of the present invention structured flowchart receiving DRX parameter processing apparatus.

Detailed description of the invention

Below with reference to accompanying drawing and describe the present invention in detail in conjunction with the embodiments.It should be noted that when not conflicting, the embodiment in the application and the feature in embodiment can be mutually combined.

Provide a kind of discontinuous reception DRX parameter processing method in the present embodiment, the method can be realized by base station or RRC, but it is not limited to this, Fig. 1 is a kind of discontinuous flow chart receiving DRX parameter processing method according to embodiments of the present invention, as it is shown in figure 1, this flow process comprises the steps:

Step S102, receives the service signal from user equipment (UE)；

Step S104, judges whether to enable Transmission Time Interval TTI binding according to service signal；

Step S106, when judged result is for being, determines the DRX parameter enabled under TTI binding state for UE；And/or, when judged result is no, determine the DRX parameter enabled under TTI binding state for UE.

Pass through above-mentioned steps, by receiving the service signal of UE, judge whether to enable Transmission Time Interval TTI binding according to service signal, determine DRX parameter according to judged result, solve in correlation technique, after network introduces more multi-functional (such as, TTI function, and DRX function), problem in the more multi-functional middle Experience Degree improving user, and then reached, according to network environment, to adjust corresponding function parameter, thus improving the effect of Consumer's Experience.

Preferably, when judging whether to enable TTI binding according to service signal, various ways can be adopted, such as, the up single radio bearer (RadioBear of UE can be judged according to service signal, be called for short RB) Signal to Interference plus Noise Ratio whether less than predetermined enable threshold value, when judged result is for being, enable TTI binding；And/or, when judged result is no, go to enable TTI binding.

Signal to Interference plus Noise Ratio (the SingaltoInterferenceplusNoiseRatio of the above-mentioned up single radio bearer RB determining UE according to service signal, referred to as SINR), by comparing with the size enabling threshold value, judge the condition of UE operator or existing network, determine whether to enable TTI binding according to network coverage situation, reach to improve the purpose of transmission quality.Adopt above-mentioned processing mode, owing to Signal to Interference plus Noise Ratio can symbolize the substantially environment (such as, be in network edge or network non-edge) of network residing for subscriber equipment, such that it is able to relatively rapid determine whether to enable TTI binding.Such as, when determining that UE is in network edge according to this Signal to Interference plus Noise Ratio, owing to needs ensure signal quality, therefore, it can enable TTI；And when determining that this UE is in network non-edge according to this Signal to Interference plus Noise Ratio, due to UE now signal quality preferably, then can go to enable TTI binding, thus power saving.

Preferably, determine that the DRX parameter enabled under TTI binding state can adopt various ways for UE, it is for instance possible to use one of in the following manner: determine that for closing parameter corresponding to DRX function be DRX parameter, it is determined that being used for performing the first predefined parameter corresponding to predetermined DRX function is DRX parameter.Such as, under determining enable TTI binding state, take this opportunity can heavily join DRX parameter or close DRX function, reach to promote the purpose of the QoS impression of edge customer.When UE arrives non-edge from edge, close TTI binding simultaneously, original DRX strategy can be recovered.

Preferably, determine that the DRX parameter enabled under TTI binding state can also adopt various ways for UE, such as, can one of in the following ways: determine that enabling corresponding parameter before TTI binding state is DRX parameter, it is determined that be DRX parameter for performing the second predefined parameter corresponding to predetermined DRX function.

Alternatively, under determining enable TTI binding state, it is determined that before corresponding parameter is DRX parameter or reconfigures DRX parameter, when UE moves to non-edge from edge, when closing TTI binding, recover DRX originally tactful simultaneously, allow UE have and better economize electroreception.

Preferably, the DRX parameter enabled under TTI binding state is determined for UE；And/or, after determining, for UE, the DRX parameter enabled under TTI binding state, also include: carry out data processing according to the DRX parameter determined.

Alternatively, after determine DRX parameter for UE, carry out data processing according to this DRX parameter, due to the condition flexible configuration according to operator or existing network, reach power saving and ensure the QoS of the UE double goal experienced, allowing UE have better power saving and impression.

Additionally providing a kind of discontinuous reception DRX parameter processing apparatus in the present embodiment, this device is used for realizing above-described embodiment and preferred implementation, has be carried out repeating no more of explanation.As used below, term " module " can realize the software of predetermined function and/or the combination of hardware.Although the device described by following example preferably realizes with software, but hardware, or the realization of the combination of software and hardware is also likely to and is contemplated.

Fig. 2 is a kind of discontinuous structured flowchart receiving DRX parameter processing apparatus according to embodiments of the present invention, this device can be base station or RRC, but it is not limited to this, as shown in Figure 3, this device includes: receiver module 22, judge module 24, first determine that module 26 and second determines module 28, below this device is illustrated.

Receiver module 22, for receiving the service signal from user equipment (UE), judge module 24, it is connected to above-mentioned receiver module 22, for judging whether to enable Transmission Time Interval TTI binding according to service signal, first determines module 26, is connected to above-mentioned judge module 24, for when judged result is for being, determining the DRX parameter enabled under TTI binding state for UE；And/or, second determines module 28, is connected to above-mentioned judge module 24, for when judged result is no, determining the DRX parameter enabled under TTI binding state for UE.

Fig. 3 is the discontinuous according to the preferred embodiment of the invention preferred structure block diagram one receiving DRX parameter processing apparatus, this device can be base station or RRC, but it is not limited to this, as shown in Figure 3, this device includes outside all structures shown in Fig. 2, wherein, above-mentioned judge module also includes: judging unit 32 and enable control unit 34, below this device is illustrated.

Judging unit 32, judge that for foundation service signal whether the Signal to Interference plus Noise Ratio of up single radio bearer RB of UE is less than predetermined enable threshold value, enables control unit 34, is connected to judging unit 32, for when the judged result of judging unit 32 is for being, enabling TTI binding；And/or, when the judged result of judging unit 32 is no, go to enable TTI binding.

Alternatively, the Signal to Interference plus Noise Ratio of the up single radio bearer RB of UE is determined, by comparing with the size enabling threshold value, it is judged that the condition of UE operator or existing network according to service signal, determine whether to enable TTI binding according to network coverage situation, reach to improve the purpose of transmission quality.

Fig. 4 is the discontinuous according to the preferred embodiment of the invention preferred structure block diagram two receiving DRX parameter processing apparatus, this device can be base station or RRC, but it is not limited to this, as shown in Figure 4, this device includes outside all structures shown in Fig. 2, wherein, above-mentioned first determines that module includes one below: first determines that unit 42 and second determines unit 44, below this preferred structure is illustrated.

First determines unit 42, and for determining that for closing parameter corresponding to DRX function be DRX parameter, the second true 44 cell, for determining that for performing the first predefined parameter corresponding to predetermined DRX function be DRX parameter.

Alternatively, under determining enable TTI binding state, take this opportunity can heavily join DRX parameter or close DRX function, reach to promote the purpose of the QoS impression of edge customer.When UE arrives non-edge from edge, close TTI binding simultaneously, original DRX strategy can be recovered.

Fig. 5 is the discontinuous according to the preferred embodiment of the invention preferred structure block diagram three receiving DRX parameter processing apparatus, this device can be base station or RRC, but it is not limited to this, as shown in Figure 5, this device includes outside all structures shown in Fig. 2, wherein, above-mentioned second determines that module includes one below: the 3rd determines that unit 52 and the 4th determines unit 54, below this preferred structure is illustrated.

3rd determines unit 52, and for determining that enabling parameter corresponding before TTI binding state is DRX parameter, the 4th determines unit 54, for determining that for performing the second predefined parameter corresponding to predetermined DRX function be DRX parameter.

Alternatively, under determining enable TTI binding state, it is determined that before corresponding parameter is DRX parameter or reconfigures DRX parameter, when UE moves to non-edge from edge, when closing TTI binding, recover DRX originally tactful simultaneously, allow UE have better power saving and impression.

Fig. 6 is the discontinuous according to the preferred embodiment of the invention preferred structure block diagram four receiving DRX parameter processing apparatus, this device can be base station or RRC, but it is not limited to this, as shown in Figure 6, this device includes outside all structures shown in Fig. 2, also include: processing module 62, below this preferred structure is illustrated.

Processing module 62, is connected to above-mentioned first and determines that module 26 and/or second determines module 28, for carrying out data processing according to the DRX parameter determined.

Alternatively, after determine DRX parameter for UE, carry out data processing according to this DRX parameter, due to the condition flexible configuration according to operator or existing network, reach power saving and ensure the QoS of the UE double goal experienced, allowing UE have better power saving and impression.

Fig. 7 is the structured flowchart of base station according to embodiments of the present invention, as it is shown in fig. 7, this base station 70 includes any of the above-described item discontinuous reception DRX parameter processing apparatus 72.

Fig. 8 is the structured flowchart of radio resource controller RRC according to embodiments of the present invention, and as shown in Figure 8, this RRC80 includes any of the above-described item discontinuous reception DRX parameter processing apparatus 82.

Fig. 9 is the discontinuous according to the preferred embodiment of the present invention structured flowchart receiving DRX parameter processing apparatus, judge to enable module (function is with above-mentioned judge module 24) and RRC (RadioResourceControl) module (with above-mentioned first, function determines that module 26 and/or second determines module 28) as it is shown in figure 9, this device includes TTI binding.

For the problems referred to above in correlation technique, during owing to arriving cell edge, startup TTI binding must carry out RRC and reconfigure, and takes this opportunity can heavily join DRX parameter or close DRX function, reaches to promote the purpose of the QoS impression of edge customer.When UE arrives non-edge from edge, close TTI binding simultaneously, original DRX strategy can be recovered.Namely in order to ensure the QoS performance of UE under TTI binds, it is necessary to sacrifice certain or whole electric energy, QoS performance is promoted；When network edge covers excessively poor, the QoS impression of UE cannot ensure.Based on this, in the preferred embodiment, provide a kind of DRX parameter processing scheme, wherein, TTI binding judges that enabling module (function is with above-mentioned judge module 24) is responsible for judging that UE enables and go to enable TTI binding, and RRC (RadioResourceControl) module (with above-mentioned first, function determines that module 26 and/or second determines module 28) is responsible for special configuration DRX strategy.

1.UE does not configure TTI binding, is normally carried out business, and step is as follows:

A) TTI binding judges to enable module, and according to the SINR situation on up single RB, thresholding can be decided to be less than or equal to EnableTTIB_thresholdDB (function is with above-mentioned enable threshold value), it is determined whether enable, carries out b) if enabled；

B) RRC (RadioResourceControl) module, is picked as the strategy of UE special configuration DRX, and the strategy of special configuration comprises two kinds:

I: do not configure DRX, was configured with DRX parameter before namely, and now deallocation is put；

II: take special DRX parameter, namely replaces original DRX parameter, is configured to the parameter combined with TTI binding.

C) it is sent to UE by RRCconnectionreconfiguration message, starts TTI binding and specially join DRX strategy.

2.UE has configured TTI binding, is normally carried out business, and step is as follows:

A) TTI binding judges to enable module, and according to the SINR situation on up single RB, thresholding can be decided to be less than or equal to DisableTTIB_thresholdDB (function enables threshold value with above-mentioned going), it is determined whether go to enable TTI binding, if going enable to carry out b)；

B) RRC (RadioResourceControl) module, recovers original conventional DRX strategy；

C) it is sent to UE by RRCconnectionreconfiguration message, closes TTI binding and start conventional DRX strategy.

By the above-mentioned scheme specially joining DRX strategy for the UE under TTI binding state, effectively promoting the QoS impression of edge customer, typical case's application of TTI binding is for voice, can be greatly promoted the impression of voice.And according to the condition flexible configuration of operator or existing network, power saving can be reached and ensure the QoS of the UE double goal experienced.Such as, when network edge covers excessively poor, it is possible to take to close the strategy of DRX, ensure the QoS impression of UE with all strength.And when UE moves to non-edge from edge, when closing TTI binding, recover DRX originally tactful simultaneously, allow UE have and better economize electroreception.

Illustrate below in conjunction with preferred implementation.

Preferred implementation 1

FDD Long Term Evolution (FrequencyDivisionDuplexingLongTermEvolution, referred to as FDDLTE) system, UE carries out quality of service classes mark (QosClassIndentifier, referred to as QCI1) speech business, the parameter of the DRX now configured is:

OnDurationTimer:4psf；Drx-InactivityTimer:8psf；Drx-RetransmissionTimer:8psf；

LongDRX-CycleStartOffset:sf40.DisableTTIBthreshold=8dB, EnableTTIB_threshold=4dB；UE does not now configure TTI binding.

A) TTI binding judges to enable module, and the SINR of up single RB is equal to 3dB, now owing to judging EnableTTIB less than waiting_threshold, it is necessary to enable TTI binding,

B) RRC (RadioResourceControl) module, is picked as the strategy of UE special configuration DRX, and this operator does not configure DRX parameter after wishing startup TTI binding；

C) it is sent to UE by RRCconnectionreconfiguration message, starts TTI binding and deallocation puts DRX parameter strategy.Namely start UE, the DRX function after TTI binding to close.

Preferred implementation 2

FDDLTE system, UE carries out QCI1 speech business, and the parameter of the DRX now configured is:

OnDurationTimer:8psf；Drx-InactivityTimer:8psf；Drx-RetransmissionTimer:8psf；

LongDRX-CycleStartOffset:sf40.DisableTTIB_threshold=9dB, EnableTTIB_threshold=5dB；UE does not now configure TTI binding.

A) TTI binding judges to enable module, and the SINR of up single RB is equal to 3dB, now owing to judging EnableTTIB less than waiting_threshold, RRC module, it is picked as the strategy of UE special configuration DRX, this operator wishes that the DRX parameter after starting TTI binding is as follows:

OnDurationTimer:10psf；Drx-InactivityTimer:10psf；Drx-RetransmissionTimer:8psf；LongDRX-CycleStartOffset:sf40.

B) it is sent to UE by RRCconnectionreconfiguration message, starts TTI binding and special configuration DRX parameter strategy.

Preferred implementation 3

Time division duplex Long Term Evolution (TimeDivisionDuplexingLongTermEvolution, referred to as TDDLTE) system, UE carries out QCI1 speech business, and the parameter of the DRX now configured is:

OnDurationTimer:8psf；Drx-InactivityTimer:8psf；Drx-RetransmissionTimer:8psf；

LongDRX-CycleStartOffset:sf40.DisableTTIB_threshold=9dB, EnableTTIB_threshold=5dB；UE does not now configure TTI binding.

A) TTI binding judges to enable module, and TTI binding judges to enable module, and the SINR of up single RB is equal to 2dB, now owing to judging EnableTTIB less than waiting_threshold,

B) RRC module, is picked as the strategy of UE special configuration DRX, and this operator wishes that the DRX parameter after starting TTI binding is as follows:

OnDurationTimer:10psf；Drx-InactivityTimer:10psf；Drx-RetransmissionTimer:8psf；LongDRX-CycleStartOffset:sf20.

C) it is sent to UE by RRCconnectionreconfiguration message, starts TTI binding and special configuration DRX parameter strategy.

Preferred implementation 4

TDDLTE system, UE carries out QCI1 speech business, and UE has now configured TTI binding.The parameter of the DRX now configured is: onDurationTimer:8psf；Drx-InactivityTimer:10psf；Drx-RetransmissionTimer:8psf；LongDRX-CycleStartOffset:sf20.DisableTTIB_threshold=9dB, EnableTTIB_threshold=5dB；

A) TTI binding judges to enable module, and the SINR of up single RB is equal to 10dB, now owing to judging DisableTTIB more than waiting_threshold, judge now to need to enable TTI binding according to up SINR situation；

B) RRC module, recovers original DRX parameter:

OnDurationTimer:8psf；Drx-InactivityTimer:8psf；Drx-RetransmissionTimer:8psf；LongDRX-CycleStartOffset:sf40.

C) it is sent to UE by RRCconnectionreconfiguration message, closes TTI binding and revert to the DRX parameter being not enabled under TTI binding.

It should be noted that; above-mentioned preferred implementation is merely illustrative of; the actual DRX parameter specially joined and strategy are configurable; need to arrange net and function application according to actual; adjust DRX parameter; as long as have employed the enforcement of the principle of above-mentioned adjustment DRX parameter, all in the claimed protection domain of the application.

Obviously, those skilled in the art should be understood that, each module of the above-mentioned present invention or each step can realize with general calculation element, they can concentrate on single calculation element, or it is distributed on the network that multiple calculation element forms, alternatively, they can realize with the executable program code of calculation element, thus, can be stored in storage device is performed by calculation element, and in some cases, shown or described step can be performed with the order being different from herein, or they are fabricated to respectively each integrated circuit modules, or the multiple modules in them or step are fabricated to single integrated circuit module realize.So, the present invention is not restricted to the combination of any specific hardware and software.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, any amendment of making, equivalent replacement, improvement etc., should be included within protection scope of the present invention.

Claims (12)

1. a discontinuous reception DRX parameter processing method, it is characterised in that including:

Receive the service signal from user equipment (UE)；

Judge whether to enable Transmission Time Interval TTI binding according to described service signal；

When judged result is for being, determine the DRX parameter enabled under TTI binding state for described UE；And/or, when judged result is no, determine the DRX parameter enabled under TTI binding state for described UE.

2. method according to claim 1, it is characterised in that judge whether that enabling described TTI binding includes according to described service signal:

Judge that according to described service signal whether the Signal to Interference plus Noise Ratio of up single radio bearer RB of described UE is less than predetermined enable threshold value；

When judged result is for being, enable described TTI binding；And/or, when judged result is no, go to enable described TTI binding.

3. method according to claim 1, it is characterised in that determine that the DRX parameter enabled under TTI binding state includes one of for described UE:

Determine that for closing parameter corresponding to DRX function be described DRX parameter；

Determine that for performing the first predefined parameter corresponding to predetermined DRX function be described DRX parameter.

4. method according to claim 1, it is characterised in that determine that the DRX parameter enabled under TTI binding state includes one of for described UE:

Determine that enabling parameter corresponding before TTI binding state is described DRX parameter；

Determine that for performing the second predefined parameter corresponding to predetermined DRX function be described DRX parameter.

5. the method according to any one of Claims 1-4, it is characterised in that determine the DRX parameter enabled under TTI binding state for described UE；And/or, after determining, for described UE, the DRX parameter enabled under TTI binding state, also include:

Data processing is carried out according to the described DRX parameter determined.

6. a discontinuous reception DRX parameter processing apparatus, it is characterised in that including:

Receiver module, for receiving the service signal from user equipment (UE)；

Judge module, for judging whether to enable Transmission Time Interval TTI binding according to described service signal；

First determines module, for when judged result is for being, determining the DRX parameter enabled under TTI binding state for described UE；And/or, second determines module, for when judged result is no, determining the DRX parameter enabled under TTI binding state for described UE.

7. device according to claim 6, it is characterised in that described judge module includes:

Judging unit, for judging that according to described service signal whether the Signal to Interference plus Noise Ratio of up single radio bearer RB of described UE is less than predetermined enable threshold value；

Enable control unit, for when the judged result of judging unit is for being, enabling described TTI binding；And/or, when the judged result of judging unit is no, go to enable described TTI binding.

8. device according to claim 6, it is characterised in that described first determines that module includes one below:

First determines unit, for determining that for closing parameter corresponding to DRX function be described DRX parameter；

Second determines unit, for determining that for performing the first predefined parameter corresponding to predetermined DRX function be described DRX parameter.

9. device according to claim 6, it is characterised in that described second determines that module includes one below:

3rd determines unit, for determining that enabling parameter corresponding before TTI binding state is described DRX parameter；

4th determines unit, for determining that for performing the second predefined parameter corresponding to predetermined DRX function be described DRX parameter.

10. the device according to any one of claim 6 to 9, it is characterised in that also include:

Processing module, for carrying out data processing according to the described DRX parameter determined.

11. a base station, it is characterised in that include the device described in any one of the claims 6 to 10.

12. a radio resource controller RRC, it is characterised in that include the device described in any one of the claims 6 to 10.