CN109548118A - DRX configuration, method of reseptance and device, storage medium, base station, user equipment - Google Patents

Abstract

A kind of DRX configuration, method of reseptance and device, storage medium, base station, user equipment, DRX configuration method include: the relationship with integral multiple between the DRX cycle of each subband for the DRX cycle on the multiple subbands of user device configuration；For the activation phase on the multiple subband of the user device configuration, wherein the activation phase of each subband has covering relation in time；Wherein, the DRX cycle and activation phase are contained in DRX parameter.The power consumption of user equipment can be reduced for technical solution of the present invention.

Description

DRX configuration, method of reseptance and device, storage medium, base station, user equipment

Technical field

The present invention relates to field of communication technology more particularly to a kind of DRX configurations, method of reseptance and device, storage medium, base It stands, user equipment.

Background technique

For the 5th third-generation mobile communication technology (5th-Generation, 5G), new wireless (New Radio, NR) technical bid Standard is just under discussion.Carrier frequency band is very wide in NR system, in order to facilitate frequency resource management and user equipment (User Equipment, UE) power saving namely radio frequency (Radio Frequency, RF) device do not need to receive and dispatch on entire carrier frequency band, It is discussing as connected state UE pull-in frequency subband (Band Width Part, BWP).Connected state UE only needs the BWP in activation Upper sending and receiving data.For a UE, it may be assigned and activate more than one BWP.

In the prior art, connected state UE enters discontinuous reception (Discontinuous when not having data transmit-receive temporarily Reception, DRX) state.The fundamental mechanism of DRX is to configure a DRX for the UE in connected state to recycle (DRX-Cycle). DRX circulation is made of duration (On Duration) and DRX chance (Opportunity for DRX): in the duration Interior, UE is monitored and is received Physical Downlink Control Channel (Physical Downlink Control Channel, PDCCH), namely The activation phase；Within the DRX chance time, UE does not receive PDCCH to reduce power consumption namely dormant period.

But when UE is configured and activates more than a BWP, UE can be configured PDCCH and relevant on each BWP DRX parameter.Since the channel parameter collection (numerology) on two difference BWP is different and business demand is different, UE There can be different DRX parameter configurations on different BWP.DRX of the UE at least two BWP, which is out of step, will lead to UE function Consumption increases.

Summary of the invention

Present invention solves the technical problem that being how to reduce the power consumption of user equipment.

In order to solve the above technical problems, the embodiment of the present invention provides a kind of DRX configuration method, DRX configuration method include: for DRX cycle on the multiple subbands of user device configuration, with the relationship of integral multiple between the DRX cycle of each subband；It is described The activation phase on the multiple subband of user device configuration, wherein the activation phase of each subband has covering relation in time； Wherein, the DRX cycle and activation phase are contained in DRX parameter.

Optionally, the activation phase on the multiple subband of the user device configuration includes: big with setting value At the beginning of the activation phase earlier than numerical value small activation phase is equal at the beginning of；Configure the end of the numerical value big activation phase Time is later than the end time of the activation phase small equal to the numerical value.

It optionally, is the DRX time started at the beginning of the activation phase, described is more described in the user device configuration The activation phase on height band includes: with the setting value big activation phase corresponding DRX time started earlier than the activation small equal to numerical value The phase corresponding DRX time started；It is more than or equal to the number with the sum of setting value big activation phase and its corresponding DRX time started It is worth the sum of small activation phase and its corresponding DRX time started.

Optionally, DRX time started is indicated with millisecond, subframe, time slot or mini-slot.

The embodiment of the invention also discloses a kind of DRX to configure method of reseptance, and DRX configuration method of reseptance includes: to receive base station DRX cycle on multiple subbands of configuration, with the relationship of integral multiple between the DRX cycle of each subband；Receive the base station The activation phase on the multiple subband of configuration, wherein the activation phase of each subband has covering relation in time；Wherein, The DRX cycle and activation phase are contained in DRX parameter.

Optionally, the activation phase on the multiple subband for receiving the base station configuration includes: to receive the base station At the beginning of the numerical value of the configuration big activation phase earlier than numerical value small activation phase is equal at the beginning of；The base station is received to match The end time of the numerical value set big activation phase is later than the end time of the activation phase small equal to the numerical value.

It optionally, is the DRX time started at the beginning of the activation phase, it is described to receive the described more of the base station configuration The activation phase on height band includes: to receive the numerical value big activation phase corresponding DRX time started earlier than the activation small equal to numerical value The phase corresponding DRX time started；The sum of numerical value big activation phase and its corresponding DRX time started are received more than or equal to the number It is worth the sum of small activation phase and its corresponding DRX time started.

Optionally, DRX time started is indicated with millisecond, subframe, time slot or mini-slot.

The embodiment of the invention also discloses a kind of DRX configuration device, DRX configuration device includes: DRX cycle configuration module, The DRX cycle being suitable on the multiple subbands of user device configuration, with the relationship of integral multiple between the DRX cycle of each subband； Activation phase configuration module, the activation phase being suitable on the multiple subband of the user device configuration, wherein each subband swashs Current has covering relation in time；Wherein, the DRX cycle and activation phase are contained in DRX parameter.

Optionally, the activation phase configuration module includes: the first time started configuration unit, and suitable for matching, setting value is big to swash At the beginning of current earlier than numerical value small activation phase is equal at the beginning of；First end time configuration unit is suitable for configuration The end time of the numerical value big activation phase is later than the end time of the activation phase small equal to the numerical value.

It optionally, is the DRX time started at the beginning of the activation phase, the activation phase configuration module includes: second Time started configuration unit, suitable for matching the setting value big activation phase corresponding DRX time started earlier than the activation small equal to numerical value The phase corresponding DRX time started；Second end time configuration unit, suitable for matching setting value big activation phase and its corresponding DRX The sum of time started is more than or equal to the sum of the numerical value small activation phase and its corresponding DRX time started.

Optionally, DRX time started is indicated with millisecond, subframe, time slot or mini-slot.

The embodiment of the invention also discloses a kind of DRX to configure reception device, and it includes: that DRX cycle connects that DRX, which configures reception device, Module is received, suitable for receiving the DRX cycle on multiple subbands that base station configures, there is integral multiple between the DRX cycle of each subband Relationship；Activation phase receiving module, the activation phase on the multiple subband suitable for receiving the base station configuration, wherein each The activation phase of subband has covering relation in time；Wherein, the DRX cycle and activation phase are contained in DRX parameter.

Optionally, the activation phase receiving module includes: the first time started receiving unit, is matched suitable for receiving the base station At the beginning of the numerical value the set big activation phase earlier than numerical value small activation phase is equal at the beginning of；First end time received Unit, the end time of the numerical value suitable for receiving base station configuration big activation phase are later than small equal to the numerical value sharp The end time of current.

It optionally, is the DRX time started at the beginning of the activation phase, the activation phase receiving module includes: second Time started receiving unit, suitable for receiving the numerical value big activation phase corresponding DRX time started earlier than the activation small equal to numerical value The phase corresponding DRX time started；Second end time receiving unit, suitable for receiving numerical value big activation phase and its corresponding DRX The sum of time started is more than or equal to the sum of the numerical value small activation phase and its corresponding DRX time started.

Optionally, DRX time started is indicated with millisecond, subframe, time slot or mini-slot.

The embodiment of the invention also discloses a kind of storage mediums, are stored thereon with computer instruction, the computer instruction The step of the step of DRX configuration method is executed when operation or DRX configuration method of reseptance.

The embodiment of the invention also discloses a kind of base station, including memory and processor, being stored on the memory can The computer instruction run on the processor, the processor execute the DRX configuration when running the computer instruction The step of method.

The embodiment of the invention also discloses a kind of user equipment, including memory and processor, stored on the memory There is the computer instruction that can be run on the processor, the processor executes the DRX when running the computer instruction The step of configuring method of reseptance.

Compared with prior art, the technical solution of the embodiment of the present invention has the advantages that

In technical solution of the present invention, base station is the DRX cycle on the multiple subbands of user device configuration, the DRX of each subband With the relationship of integral multiple between period；For the activation phase on the multiple subband of the user device configuration, wherein each height The activation phase of band has covering relation in time；Wherein, the DRX cycle and activation phase are contained in DRX parameter.The present invention Technical solution, which configures DRX cycle of the user equipment on multiple subbands by base station, has integral multiple relation, and configures multiple The activation phase on subband has covering relation, so that duration of the user equipment on multiple subbands in the activation phase is whole Body is reduced namely user equipment is monitored and receives the time reduction of PDCCH, and then reduces the power consumption of user equipment.

Further, the activation phase on the multiple subband of the user device configuration includes: big with setting value At the beginning of the activation phase earlier than numerical value small activation phase is equal at the beginning of；Configure the end of the numerical value big activation phase Time is later than the end time of the activation phase small equal to the numerical value.Technical solution of the present invention is different on multiple subbands by configuring Relationship between at the beginning of the activation phase of numerical value and the relationship between the end time, to guarantee swashing on multiple subbands There is covering relation between current, and then guarantee to reduce the power consumption of user equipment.

Detailed description of the invention

Fig. 1 is a kind of flow chart of DRX configuration method of the embodiment of the present invention；

Fig. 2 is a kind of schematic diagram of concrete application scene of the embodiment of the present invention；

Fig. 3 is a kind of flow chart of DRX configuration method of reseptance of the embodiment of the present invention；

Fig. 4 is a kind of structural schematic diagram of DRX configuration device of the embodiment of the present invention；

Fig. 5 is a kind of structural schematic diagram of DRX configuration reception device of the embodiment of the present invention.

Specific embodiment

As described in the background art, when UE is configured and activates more than a BWP, UE can be configured on each BWP PDCCH and relevant DRX parameter.Since the channel parameter collection (numerology) on two difference BWP is different and business needs Ask different, therefore UE there can be different DRX parameter configurations on different BWP.DRX step of the UE at least two BWP is not It unanimously will lead to the increase of UE power consumption.

Technical solution of the present invention configures DRX cycle of the user equipment on multiple subbands by base station and closes with integral multiple The activation phase in system, and the multiple subbands of configuration has covering relation, so that user equipment is on multiple subbands in sharp The duration of current is integrally reduced namely user equipment is monitored and receives the time reduction of PDCCH, and then is reduced user and set Standby power consumption.

To make the above purposes, features and advantages of the invention more obvious and understandable, with reference to the accompanying drawing to the present invention Specific embodiment be described in detail.

Fig. 1 is a kind of flow chart of DRX configuration method of the embodiment of the present invention.

DRX configuration method shown in Fig. 1 can be used for base station side, and the DRX configuration method may comprise steps of:

Step S101: for the DRX cycle on the multiple subbands of user device configuration, have between the DRX cycle of each subband The relationship of integral multiple；

Step S102: for the activation phase on the multiple subband of the user device configuration, wherein the activation of each subband Phase has covering relation in time.

Wherein, the DRX cycle and activation phase are contained in DRX parameter.

In the present embodiment, user equipment (User Equipment, UE) can be configured and activate simultaneously multiple subbands, institute It states and can have different DRX parameters on multiple subbands.The step of discontinuous reception is carried out to guarantee UE on multiple subbands Unanimously, in the specific implementation of step S101, base station can configure the pass between the DRX cycle of each subband with integral multiple System.

Specifically, the relationship between the DRX cycle of each subband with integral multiple refers to, the biggish DRX cycle of numerical value It is the integral multiple of the lesser DRX cycle of numerical value.For example, UE is configured and activates two subband BWP1 and subband BWP2, subband There is BWP1 DRX cycle DRX-Cycle1, subband BWP2 to have DRX cycle DRX-Cycle2.If necessary to configure DRX cycle DRX-Cycle1 is greater than DRX cycle DRX-Cycle2, then it is DRX cycle DRX- that base station, which can configure DRX cycle DRX-Cycle1, The integral multiple of Cycle2；If necessary to configure DRX cycle DRX-Cycle2 greater than DRX cycle DRX-Cycle1, then base station can be with Configure the integral multiple that DRX cycle DRX-Cycle2 is DRX cycle DRX-Cycle1.

And so on, UE be configured and activate greater than two subband BWP1, subband BWP2, subband BWP3 ..., subband BWP_N, be respectively provided with DRX cycle DRX-Cycle1, DRX-Cycle2, DRX-Cycle3 ..., DRX-CycleN, then base station can be with Configure according to actual needs DRX cycle DRX-Cycle1, DRX-Cycle2, DRX-Cycle3 ..., between DRX-CycleN each other Integral multiple relation.

It should be noted that the numerical value of the integer can be any enforceable positive integer, such as 1,2,3 etc., this hair Bright embodiment is without limitation.

Further, the relationship with integral multiple between the DRX cycle in addition to configuring each subband, in the tool of step S102 During body is implemented, the activation phase that base station can configure each subband has covering relation in time.

Specifically, the activation phase of each subband refers to that numerical value is biggish in time with covering relation in time The numerical value lesser activation phase can be completely covered in the activation phase, that is to say, that the duration of numerical value biggish activation phase is covered completely The duration of lid numerical value lesser activation phase.

So far, relationship and each subband of the base station configuration UE between the DRX cycle of each subband with integral multiple The activation phase has covering relation in time, and the DRX cycle of configuration completion and activation phase are contained in DRX parameter and are sent to UE, so that the synchronism for carrying out discontinuous reception on each subband may be implemented using the DRX parameter by UE.

The embodiment of the present invention, which configures DRX cycle of the user equipment on multiple subbands by base station, has integral multiple relation, And the activation phase on the multiple subbands of configuration has covering relation, so that user equipment is in the activation phase on multiple subbands Duration integrally reduce namely user equipment is monitored and receives time of PDCCH and reduces, and then reduce user equipment Power consumption.

Preferably, step S102 may comprise steps of: earlier than being equal at the beginning of with the setting value big activation phase At the beginning of the numerical value small activation phase；Configure the numerical value big activation phase end time be later than it is small equal to the numerical value The end time of activation phase.

In the present embodiment, in order to realize that the activation phase of each subband has covering relation in time, setting value can be matched At the beginning of the big activation phase earlier than numerical value small activation phase is equal at the beginning of and numerical value big activation phase end Time is later than the end time of the activation phase small equal to the numerical value.Wherein, holding for activation phase can be indicated by activating the numerical value of phase The continuous time.

As shown in Fig. 2, the DRX cycle of subband BWP1 is DRX Cycle1, it is T2 at the beginning of activating the phase 1, at the end of Between be T3；The DRX cycle of subband BWP2 is DRX Cycle2, is T1, end time T4 at the beginning of activating the phase 2.Wherein, The numerical value of activation phase 2 is greater than the numerical value of activation phase 1, therefore base station configuration time started T1 is earlier than time started T2, end time It is later than end time T3 for T4.In addition, base station configuration DRX cycle DRX Cycle2 is 2 times of DRX cycle DRX Cycle1.

Preferably, step S102 may comprise steps of: early with the setting value big activation phase corresponding DRX time started In the activation phase corresponding DRX time started small equal to numerical value；With setting value big activation phase and its corresponding DRX time started The sum of be more than or equal to the sum of the numerical value small activation phase and its corresponding DRX time started.

It is the DRX time started at the beginning of the activation phase in the present embodiment.Please continue to refer to Fig. 2, subband BWP1's T2 is the DRX time started 1 at the beginning of the activation phase 1, and end time T3 is the sum of DRX time started 1 and activation phase 1；Subband At the beginning of the activation phase 2 of BWP2 T1 be the DRX time started 2, end time T4 be the DRX time started 2 and activation the phase 2 it With.

It is understood that DRX parameter is in addition to that can also have the parameter DRX time started including DRX cycle and other than the activation phase (alternatively referred to as DRX starts offset (Start Offset)), to indicate position that DRX cycle starts, namely the activation phase opens The position of beginning.

Further, DRX time started is indicated with millisecond, subframe, time slot or mini-slot.Specifically, described The DRX time started can also be indicated using absolute time units, such as millisecond (ms), microsecond (us) etc.；It can also be using logical Chronomere's subframe, time slot (slot) or the mini-slot (mini slot) of letter system indicates.More specifically, time slot includes 5 Symbol (symbol), time span 0.5ms；Symbol quantity included by mini-slot is less than symbol quantity included by time slot, And time duration is less than the time span of time slot.

Fig. 3 is a kind of flow chart of DRX configuration method of reseptance of the embodiment of the present invention.

DRX shown in Fig. 3 configuration method of reseptance can be used for user equipment side, DRX configuration method of reseptance may include with Lower step:

Step S201: the DRX cycle on multiple subbands of base station configuration is received, is had between the DRX cycle of each subband The relationship of integral multiple；

Step S202: the activation phase on the multiple subband of the base station configuration is received, wherein the activation of each subband Phase has covering relation in time；

Wherein, the DRX cycle and activation phase are contained in DRX parameter.

In the present embodiment, the integral multiple relation of the DRX cycle on multiple subbands of the user equipment by receiving base station configuration, And the covering relation of the activation phase on the multiple subbands of configuration, so that user equipment is in the activation phase on multiple subbands Duration is integrally reduced namely user equipment is monitored and receives the time reduction of PDCCH, and then reduces the function of user equipment Consumption.

Preferably, step S202 may include: early at the beginning of the numerical value big activation phase for receiving base station configuration At the beginning of being equal to the numerical value small activation phase；Receive the numerical value of the base station configuration big end time for activating the phase It is later than the end time for being equal to the numerical value small activation phase.

Preferably, step S202 may include: to receive the numerical value big activation phase corresponding DRX time started earlier than equal to number It is worth the small activation phase corresponding DRX time started；Reception the sum of the numerical value big activation phase and its corresponding DRX time started is greater than The sum of the activation phase small equal to the numerical value and its corresponding DRX time started.

In the present embodiment, user equipment can receive base station configuration each activation phase at the beginning of relationship and knot Relationship between the beam time；Alternatively, also can receive the relationship and each between each DRX time started of base station configuration Relationship between the sum of DRX time started and corresponding activation phase.

About working principle, the more contents of working method of DRX configuration method of reseptance, it is referred in Fig. 1 Associated description, which is not described herein again

Fig. 4 is a kind of structural schematic diagram of DRX configuration device of the embodiment of the present invention.

DRX configuration device shown in Fig. 4 40 can be used for base station side, and DRX configuration device 40 may include DRX cycle configuration mould Block 401 and activation phase configuration module 402.

Wherein, DRX cycle configuration module 401 is suitable for the DRX cycle on the multiple subbands of user device configuration, each subband DRX cycle between with integral multiple relationship；

Activation phase configuration module 402 is suitable for the activation phase on the multiple subband of the user device configuration, wherein each The activation phase of a subband has covering relation in time.

Preferably, activation phase configuration module 402 may include the first time started configuration unit 4021, be suitable for matching setting value At the beginning of the big activation phase earlier than numerical value small activation phase is equal at the beginning of；First end time configuration unit 4022, at the end of the end time suitable for configuring the numerical value big activation phase is later than the activation phase small equal to the numerical value Between.

Preferably, activation phase configuration module 402 may include the second time started configuration unit 4023, be suitable for matching setting value The big activation phase corresponding DRX time started is earlier than the activation phase corresponding DRX time started small equal to numerical value；At the end of second Between configuration unit 4024, suitable for being more than or equal to the number with the sum of setting value big activation phase and its corresponding DRX time started It is worth the sum of small activation phase and its corresponding DRX time started.

Working principle, more contents of working method about the DRX configuration device 40, are referred to Fig. 1 into Fig. 3 Associated description, which is not described herein again.

Fig. 5 is a kind of structural schematic diagram of DRX configuration reception device of the embodiment of the present invention.

The configuration of DRX shown in Fig. 5 reception device 50 can be used for user equipment side, and DRX configuration reception device 50 may include DRX cycle receiving module 501 and activation phase receiving module 502.

Wherein, DRX cycle receiving module 501 is suitable for receiving the DRX cycle on multiple subbands of base station configuration, each subband DRX cycle between with integral multiple relationship；

Activation phase receiving module 502 is suitable for receiving the activation phase on the multiple subband of the base station configuration, wherein each The activation phase of a subband has covering relation in time.

Preferably, activation phase receiving module 502 may include the first time started receiving unit 5021, be suitable for described in reception At the beginning of numerical value big activation phase of base station configuration earlier than the numerical value small activation phase is equal at the beginning of；At the end of first Between receiving unit 5022, described in the end time of the numerical value suitable for receiving base station configuration big activation phase is later than and is equal to The end time of numerical value small activation phase.

Preferably, activation phase receiving module 502 may include the second time started receiving unit 5023, be suitable for receiving numerical value The big activation phase corresponding DRX time started is earlier than the activation phase corresponding DRX time started small equal to numerical value；At the end of second Between receiving unit 5024, suitable for receive the sum of numerical value big activation phase and its corresponding DRX time started be more than or equal to the number It is worth the sum of small activation phase and its corresponding DRX time started.

About working principle, the more contents of working method of DRX configuration reception device 50, it is referred to Fig. 1 extremely Associated description in Fig. 3, which is not described herein again.

The embodiment of the invention also discloses a kind of storage mediums, are stored thereon with computer instruction, the computer instruction The step of the configuration method of reseptance of DRX shown in the step of DRX configuration method shown in Fig. 1 can be executed when operation or Fig. 3 Suddenly.The storage medium may include ROM, RAM, disk or CD etc..

The embodiment of the invention also discloses a kind of base station, the base station may include memory and processor, the storage The computer instruction that can be run on the processor is stored on device.The processor can be with when running the computer instruction The step of executing DRX configuration method shown in Fig. 1.

The embodiment of the invention also discloses a kind of user equipment, the user equipment may include memory and processor, The computer instruction that can be run on the processor is stored on the memory.The processor runs the computer and refers to The step of configuration method of reseptance of DRX shown in Fig. 3 can be executed when enabling.The user equipment includes but is not limited to mobile phone, meter The terminal devices such as calculation machine, tablet computer.

Although present disclosure is as above, present invention is not limited to this.Anyone skilled in the art are not departing from this It in the spirit and scope of invention, can make various changes or modifications, therefore protection scope of the present invention should be with claim institute Subject to the range of restriction.

Claims (19)

1. a kind of DRX configuration method characterized by comprising

For the DRX cycle on the multiple subbands of user device configuration, with the relationship of integral multiple between the DRX cycle of each subband；

For the activation phase on the multiple subband of the user device configuration, wherein the activation phase of each subband has in time There is covering relation；

Wherein, the DRX cycle and activation phase are contained in DRX parameter.

2. DRX configuration method according to claim 1, which is characterized in that described is more described in the user device configuration The activation phase on height band includes:

At the beginning of with the setting value big activation phase earlier than numerical value small activation phase is equal at the beginning of；

The end time for configuring the numerical value big activation phase is later than the end time of the activation phase small equal to the numerical value.

3. DRX configuration method according to claim 1, which is characterized in that start at the beginning of the activation phase for DRX Time, described is the activation phase on the multiple subband of the user device configuration to include:

When starting with the setting value big activation phase corresponding DRX time started earlier than the activation phase corresponding DRX small equal to numerical value Between；

With setting value big activation the sum of the phase and its corresponding DRX time started be more than or equal to the numerical value small activation phase and its The sum of corresponding DRX time started.

4. DRX configuration method according to claim 3, which is characterized in that the DRX time started with millisecond, subframe, when Gap or mini-slot indicate.

5. a kind of DRX configures method of reseptance characterized by comprising

Receive the DRX cycle on multiple subbands of base station configuration, the relationship with integral multiple between the DRX cycle of each subband；

Receive the activation phase on the multiple subband of the base station configuration, wherein the activation phase of each subband has in time There is covering relation；

Wherein, the DRX cycle and activation phase are contained in DRX parameter.

6. DRX according to claim 5 configures method of reseptance, which is characterized in that the institute for receiving the base station configuration The activation phase stated on multiple subbands includes:

At the beginning of the numerical value big activation phase for receiving base station configuration earlier than the numerical value small activation phase is equal at the beginning of Between；

The end time for receiving the activation phase of the numerical value of the base station configuration greatly is later than the activation phase small equal to the numerical value End time.

7. DRX according to claim 5 configures method of reseptance, which is characterized in that be DRX at the beginning of the activation phase Time started, the activation phase on the multiple subband for receiving base station configuration include:

When the reception numerical value big activation phase corresponding DRX time started starts earlier than the activation phase corresponding DRX small equal to numerical value Between；

Receive numerical value big activation the sum of the phase and its corresponding DRX time started be more than or equal to the numerical value small activation phase and its The sum of corresponding DRX time started.

8. DRX according to claim 7 configures method of reseptance, which is characterized in that the DRX time started is with millisecond, son Frame, time slot or mini-slot indicate.

9. a kind of DRX configuration device characterized by comprising

DRX cycle configuration module, the DRX cycle being suitable on the multiple subbands of user device configuration, the DRX cycle of each subband it Between with integral multiple relationship；

Activation phase configuration module, the activation phase being suitable on the multiple subband of the user device configuration, wherein each subband The activation phase there is covering relation in time；

Wherein, the DRX cycle and activation phase are contained in DRX parameter.

10. DRX configuration device according to claim 9, which is characterized in that the activation phase configuration module includes:

First time started configuration unit, suitable at the beginning of with setting value big activation phase earlier than being equal to the small activation of numerical value At the beginning of phase；

First end time configuration unit, the end time suitable for configuring the numerical value big activation phase are later than equal to the numerical value The end time of small activation phase.

11. DRX configuration device according to claim 9, which is characterized in that opened at the beginning of the activation phase for DRX Begin the time, the activation phase configuration module includes:

Second time started configuration unit, suitable for matching the setting value big activation phase corresponding DRX time started earlier than equal to numerical value The small activation phase corresponding DRX time started；

Second end time configuration unit, suitable for being greater than with the sum of setting value big activation phase and its corresponding DRX time started The sum of the activation phase small equal to the numerical value and its corresponding DRX time started.

12. DRX configuration device according to claim 11, which is characterized in that the DRX time started with millisecond, subframe, Time slot or mini-slot indicate.

13. a kind of DRX configures reception device characterized by comprising

DRX cycle receiving module, the DRX cycle on multiple subbands suitable for receiving base station configuration, the DRX cycle of each subband it Between with integral multiple relationship；

Activation phase receiving module, the activation phase on the multiple subband suitable for receiving the base station configuration, wherein each subband The activation phase there is covering relation in time；

Wherein, the DRX cycle and activation phase are contained in DRX parameter.

14. DRX according to claim 13 configures reception device, which is characterized in that the activation phase receiving module includes:

First time started receiving unit, at the beginning of numerical value suitable for the receiving base station configuration big activation phase earlier than etc. At the beginning of the numerical value small activation phase；

First end time receiving unit, suitable for receiving evening end time of the activation phase of the numerical value of the base station configuration greatly In the end time for being equal to the numerical value small activation phase.

15. DRX according to claim 13 configures reception device, which is characterized in that be at the beginning of the activation phase DRX time started, the activation phase receiving module include:

Second time started receiving unit, suitable for receiving the numerical value big activation phase corresponding DRX time started earlier than equal to numerical value The small activation phase corresponding DRX time started；

Second end time receiving unit is greater than suitable for receiving the sum of numerical value big activation phase and its corresponding DRX time started The sum of the activation phase small equal to the numerical value and its corresponding DRX time started.

16. DRX according to claim 15 configures reception device, which is characterized in that the DRX time started with millisecond, Subframe, time slot or mini-slot indicate.

17. a kind of storage medium, is stored thereon with computer instruction, which is characterized in that the computer instruction executes when running Described in any one of claims 1 to 4 the step of DRX configuration method or the configuration of DRX described in any one of claim 5 to 8 The step of method of reseptance.

18. a kind of base station, including memory and processor, the meter that can be run on the processor is stored on the memory Calculation machine instruction, which is characterized in that perform claim requires any one of 1 to 4 institute when the processor runs the computer instruction The step of stating DRX configuration method.

19. a kind of user equipment, including memory and processor, it is stored with and can runs on the processor on the memory Computer instruction, which is characterized in that perform claim requires any in 5 to 8 when the processor runs the computer instruction The step of item DRX configures method of reseptance.