CN104509177A - Drx operation method, user equipment, and base station - Google Patents

Abstract

Embodiments of the present invention disclose a DRX operation method, a user equipment, and a base station. The method comprises the following steps: a UE obtaining a DRX extension parameter from a serving base station, the DRX extension parameter being used for instructing the UE to perform one DRX operation in every N DRX periods, and N being an integer greater than 1; and the UE performing one DRX operation in every N DRX periods according to the DRX extension parameter. The frequency of a UE continuously entering a DRX activation period can be decreased, thereby reducing the power consumption of the UE.

Description

Drx operation method, user equipment, and base station

A kind of DRX operating methods, user equipment and station technology field

The present invention relates to communication technical field, more particularly to a kind of DRX operating methods, user equipment and base station.Background technology

With the continuous exploitation of the communication technology and perfect, Internet of Things has been widely used in multiple fields, including intelligent transportation, building control system, family intelligent control system, video monitoring system, industry monitoring etc..Internet of Things industry is considered as the developing direction of future network.

Internet of Things uses Machine To Machine（Machine to Machine, M2M concept), its user equipment is powered using battery mostly, exists that quantity is various in a monitoring network and distribution relatively scattered user equipment, therefore the workload changed to the batteries of these user equipmenies is very big.

Discontinuous reception（Discontinuous Reception, DRX) mechanism be Long Term Evolution (Long Term Evolution, LTE) network electricity-saving mechanism, DRX states are divided into activation period and dormancy period.User equipment monitors the wireless channel of LTE network in the activation period of each DRX cycle, checks whether to need to perform data transfer；In the dormancy period of each DRX cycle, user equipment is not carried out data transfer without monitoring wireless channel.By DRX mechanism, user equipment can reduce the power consumption of user equipment, extension battery and stand-by time without real-time monitoring wireless channel.

But, DRX most long DRX cycle is 2.56 seconds in the prior art.For the user equipment of Idle state, cell reselection process, common signal channel snoop procedure and the user equipment that energy expenditure arises primarily at user equipment to keep quality of wireless services and persistently carry out by Idle state to connected state conversion.Therefore for the user equipment without frequent data item transmission demand, the interim progress wireless channel monitoring in the activation of each DRX cycle is needed also exist for, this is for relatively more idle user equipment, and its power consumption is still higher.The content of the invention The embodiment of the present invention provides a kind of DRX operating methods, user equipment and base station, can reduce the power consumption of user equipment.

In order to solve the above-mentioned technical problem, first aspect present invention provides a kind of user equipment（User Equipment, UE), it may include：

Spreading parameter acquisition module, for obtaining discontinuous reception DRX spreading parameters from serving BS, the DRX spreading parameters are used to indicate that UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1；

Operation module, is operated for carrying out a DRX per N number of DRX cycle according to the DRX spreading parameters.

Based in a first aspect, in the first feasible embodiment of first aspect, the spreading parameter acquisition module includes：

Receiving unit, DRX spreading parameters are carried for receiving in the system broadcast information that the base station is sent, the system broadcast information；

Resolution unit, for parsing the DRX spreading parameters from the system broadcast information.

Based in a first aspect, in second of feasible embodiment of first aspect, the spreading parameter acquisition module includes：

Receiving unit, for receiving the dedicated signaling that the base station is sent, the dedicated signaling carries DRX spreading parameters；

Resolution unit, for parsing the DRX spreading parameters from the dedicated signaling.

Based in a first aspect, in the third feasible embodiment of first aspect, the spreading parameter acquisition module includes：

Receiving unit, for receiving the radio resource control RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries DRX spreading parameters；

Resolution unit, for parsing the DRX spreading parameters from the RRC Connection Releases procedural information.Second aspect of the present invention provides a kind of UE, may include：

Time parameter acquisition module, for obtaining time parameter from serving BS, the time parameter is used to refer to Show that UE carries out DRX operations in preset time period；

Operation module, for carrying out DRX operations according to the time parameter.

Based on second aspect, in the first feasible embodiment of second aspect, the time parameter acquisition module includes：

Receiving unit, time parameter is carried for receiving in the system broadcast information that the base station is sent, the system broadcast information；

Resolution unit, for parsing the time parameter from the system broadcast information.

Based on second aspect, in second of feasible embodiment of second aspect, the time parameter acquisition module includes：

Receiving unit, for receiving the dedicated signaling that the base station is sent, the dedicated signaling carries time parameter；

Resolution unit, for parsing the time parameter from the dedicated signaling.

Based on second aspect, in the third feasible embodiment of second aspect, the time parameter acquisition module includes：

Receiving unit, for receiving the RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries time parameter；

Resolution unit, for parsing the time parameter from the RRC Connection Releases procedural information.Third aspect present invention provides a kind of base station, it may include：

Spreading parameter sending module, for sending DRX spreading parameters to the UE serviced, the DRX spreading parameters are used to indicate that the UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1.

Based on the third aspect, in the first feasible embodiment of the third aspect, the spreading parameter sending module includes：

Transmitting element, for the system broadcast information for carrying DRX spreading parameters to be sent into the UE.Based on the third aspect, in second of feasible embodiment of the third aspect, the spreading parameter sending module includes： Transmitting element, for the dedicated signaling for carrying DRX spreading parameters to be sent into the UE.

Based on the third aspect, in the third feasible embodiment of the third aspect, the spreading parameter sending module includes：

Transmitting element, for when the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying DRX spreading parameters to be sent into the UE.Fourth aspect present invention provides a kind of base station, it may include：

Time parameter sending module, for sending time parameter to the UE serviced, the time parameter is used to indicate that the UE carries out DRX operations in preset time period.

Based on fourth aspect, in the first feasible embodiment of fourth aspect, the time parameter sending module includes：

Transmitting element, for the system broadcast information for carrying time parameter to be sent into the UE.

Based on fourth aspect, in second of feasible embodiment of fourth aspect, the time parameter sending module includes：

Transmitting element, for the dedicated signaling for carrying time parameter to be sent into the UE.

Based on fourth aspect, in the third feasible embodiment of fourth aspect, the time parameter sending module includes：

Transmitting element, for when the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying time parameter to be sent into the UE.Fifth aspect present invention provides a kind of DRX operating methods, it may include：

UE obtains DRX spreading parameters from serving BS, and the DRX spreading parameters are used to indicate that the UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1；

The UE carries out a DRX per N number of DRX cycle according to the DRX spreading parameters and operated.Based on the 5th aspect, in the first feasible embodiment of the 5th aspect, the UE obtains DRX spreading parameters from serving BS, including：

The UE is received in the system broadcast information that the base station is sent, the system broadcast information and carried DRX spreading parameters；

The UE parses the DRX spreading parameters from the system broadcast information.

Based on the 5th aspect, in second of feasible embodiment of the 5th aspect, the UE obtains DRX spreading parameters from serving BS, including：

The UE receives the dedicated signaling that the base station is sent, and the dedicated signaling carries DRX spreading parameters；

The UE parses the DRX spreading parameters from the dedicated signaling.

Based on the 5th aspect, in the third feasible embodiment of the 5th aspect, the UE obtains DRX spreading parameters from serving BS, including：

The UE receives the RRC Connection Release procedural informations that the base station is sent, and the RRC Connection Releases procedural information carries DRX spreading parameters；

The UE parses the DRX spreading parameters from the RRC Connection Releases procedural information.Sixth aspect present invention provides a kind of DRX operating methods, it may include：

UE obtains time parameter from serving BS, and the time parameter is used to indicate that the UE carries out DRX operations in preset time period；

The UE carries out DRX operations according to the time parameter.

Based on the 6th aspect, in the first feasible embodiment of the 6th aspect, the UE obtains time parameter from serving BS, including：

The UE is received in the system broadcast information that the base station is sent, the system broadcast information and is carried time parameter；

The UE parses the time parameter from the system broadcast information.

Based on the 6th aspect, in second of feasible embodiment of the 6th aspect, the UE obtains time parameter from serving BS, including：

The UE receives the dedicated signaling that the base station is sent, and the dedicated signaling carries time parameter；The UE parses the time parameter from the dedicated signaling.

Based on the 6th aspect, in the third feasible embodiment of the 6th aspect, the UE is from service Base station obtains time parameter, including：

The UE receives the RRC Connection Release procedural informations that the base station is sent, and the RRC Connection Releases procedural information carries time parameter；

The UE parses the time parameter from the RRC Connection Releases procedural information.Seventh aspect present invention provides a kind of DRX operating methods, it may include：

Base station sends DRX spreading parameters to the UE serviced, and the DRX spreading parameters are used to indicate that the UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1.

Based on the 7th aspect, in the first feasible embodiment of the 7th aspect, the base station sends DRX spreading parameters to the UE serviced, including：

The system broadcast information for carrying DRX spreading parameters is sent to the UE by the base station.

Based on the 7th aspect, in second of feasible embodiment of the 7th aspect, the base station sends DRX spreading parameters to the UE serviced, including：

The dedicated signaling for carrying DRX spreading parameters is sent to the UE by the base station.

Based on the 7th aspect, in the third feasible embodiment of the 7th aspect, the base station sends DRX spreading parameters to the UE serviced, including：

When the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying DRX spreading parameters are sent to the UE by the base station.Eighth aspect present invention provides a kind of DRX operating methods, it may include：

Base station sends time parameter to the UE serviced, and the time parameter is used to indicate that the UE carries out DRX operations in preset time period.

Based on eighth aspect, in the first feasible embodiment of eighth aspect, the base station sends time parameter to the UE serviced, including：

The system broadcast information for carrying time parameter is sent to the UE by the base station.

Based on eighth aspect, in second of feasible embodiment of eighth aspect, the base station sends time parameter to the UE serviced, including： The dedicated signaling for carrying time parameter is sent to the UE by the base station.

Based on eighth aspect, in the third feasible embodiment of eighth aspect, the base station sends time parameter to the UE serviced, including：

When the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying time parameter are sent to the UE by the base station.Ninth aspect present invention provides a kind of UE, may include receiver and processor；Wherein described computing device following steps：

DRX spreading parameters are obtained from serving BS, the DRX spreading parameters are used to indicate that UE carries out a DRX operation per N DRX cycle, and N is the integer more than 1；

The UE carries out a DRX per N number of DRX cycle according to the DRX spreading parameters and operated.Based on the 9th aspect, in the first feasible embodiment of the 9th aspect, the processor specifically performs following steps when performing from serving BS acquisition DRX spreading parameters：

Control receiver to receive in the system broadcast information that the base station is sent, the system broadcast information and carry DRX spreading parameters；

The DRX spreading parameters are parsed from the system broadcast information.

Based on the 9th aspect, in second of feasible embodiment of the 9th aspect, the processor specifically performs following steps when performing from serving BS acquisition DRX spreading parameters：

Receiver is controlled to receive the dedicated signaling that the base station is sent, the dedicated signaling carries DRX spreading parameters；

The DRX spreading parameters are parsed from the dedicated signaling.

Based on the 9th aspect, in the third feasible embodiment of the 9th aspect, the processor specifically performs following steps when performing from serving BS acquisition DRX spreading parameters：

Receiver is controlled to receive the RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries DRX spreading parameters；

The DRX spreading parameters are parsed from the RRC Connection Releases procedural information. Tenth aspect present invention provides a kind of UE, may include receiver and processor；Wherein described computing device following steps：

Time parameter is obtained from serving BS, the time parameter is used to indicate that UE carries out DRX operations in preset time period；

DRX operations are carried out according to the time parameter.

Based on the tenth aspect, in the first feasible embodiment of the tenth aspect, the processor is being performed from serving BS acquisition time parameter, specifically performs following steps：

Control receiver to receive in the system broadcast information that the base station is sent, the system broadcast information and carry time parameter；

The UE parses the time parameter from the system broadcast information.

Based on the tenth aspect, in second of feasible embodiment of the tenth aspect, the processor is being performed from serving BS acquisition time parameter, specifically performs following steps：

Receiver is controlled to receive the dedicated signaling that the base station is sent, the dedicated signaling carries time parameter；The time parameter is parsed from the dedicated signaling.

Based on the tenth aspect, in the third feasible embodiment of the tenth aspect, the processor is being performed from serving BS acquisition time parameter, specifically performs following steps：

Receiver is controlled to receive the RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries time parameter；

The time parameter is parsed from the RRC Connection Releases procedural information.Tenth one side of the invention provides a kind of base station, it may include processor and transmitter；Wherein described computing device following steps：

DRX spreading parameters are sent to the UE serviced, the DRX spreading parameters are used to indicate that the UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1.

Based on the tenth on the one hand, in the first feasible embodiment of the tenth one side, the processor specifically performs following steps when performing the base station to the UE transmission DRX spreading parameters serviced：The system broadcast information for carrying DRX spreading parameters is sent to the UE by control transmitter. Based on the tenth on the one hand, in second of feasible embodiment of the tenth one side, the processor specifically performs following steps when performing the base station to the UE transmission DRX spreading parameters serviced：The dedicated signaling for carrying DRX spreading parameters is sent to the UE by control transmitter.

Based on the tenth on the one hand, in the third feasible embodiment of the tenth one side, the processor specifically performs following steps when performing the base station to the UE transmission DRX spreading parameters serviced：When the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying DRX spreading parameters are sent to the UE by control transmitter.The twelfth aspect of the present invention provides a kind of base station, it may include processor and transmitter；Wherein described computing device following steps：

Time parameter is sent to the UE serviced, the time parameter is used to indicate that the UE carries out DRX operations in preset time period.

Based on the 12nd aspect, in the first feasible embodiment of the 12nd aspect, the processor specifically performs following steps when performing to the UE transmission time parameters serviced：

The system broadcast information for carrying time parameter is sent to the UE by control transmitter.

Based on the 12nd aspect, in second of feasible embodiment of the 12nd aspect, the processor specifically performs following steps when performing to the UE transmission time parameters serviced：

The dedicated signaling for carrying time parameter is sent to the UE by control transmitter.

Based on the 12nd aspect, in the third feasible embodiment of the 12nd aspect, the processor specifically performs following steps when performing to the UE transmission time parameters serviced：

When the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying time parameter are sent to the UE by control transmitter.

It is above-mentioned to understand, by configuring DRX spreading parameters or time parameter to UE, UE allow according to DRX spreading parameters or time parameter, without carrying out DRX operations in each DRX cycle, reducing UE needs to continuously enter the frequency that DRX activates period, reduces UE power consumption, for relatively idle UE, the battery that UE can be extended uses duration, and user improves UE operating efficiency without frequently changing battery for UE. Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, cylinder will be made to the required accompanying drawing used in embodiment below singly to introduce, apparently, drawings in the following description are only some embodiments of the present invention, for those of ordinary skill in the art, on the premise of not paying creative work, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is a kind of schematic flow sheet of DRX operating methods provided in an embodiment of the present invention；Fig. 2 is the schematic diagram that UE provided in an embodiment of the present invention carries out DRX operations according to DRX spreading parameters；

Fig. 3 is the schematic flow sheet of another DRX operating methods provided in an embodiment of the present invention；Fig. 4 is the schematic diagram that UE provided in an embodiment of the present invention carries out DRX operations according to time parameter；Fig. 5 is the schematic flow sheet of another DRX operating method provided in an embodiment of the present invention；Fig. 6 is the schematic flow sheet of another DRX operating method provided in an embodiment of the present invention；Fig. 7 is a kind of UE provided in an embodiment of the present invention structural representation；

Fig. 8 is the structural representation of spreading parameter acquisition module provided in an embodiment of the present invention；Fig. 9 is another UE provided in an embodiment of the present invention structural representation；

Figure 10 is the structural representation of time parameter acquisition module provided in an embodiment of the present invention；Figure 11 is a kind of structural representation of base station provided in an embodiment of the present invention；

Figure 12 is the structural representation of spreading parameter sending module provided in an embodiment of the present invention；Figure 13 is the structural representation of another base station provided in an embodiment of the present invention；

Figure 14 is the structural representation of time parameter sending module provided in an embodiment of the present invention；Figure 15 is another UE provided in an embodiment of the present invention structural representation；

Figure 16 is the structural representation of another base station provided in an embodiment of the present invention.Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the invention, rather than Whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made belongs to the scope of protection of the invention.

In embodiments of the present invention, UE may be at connection status or idle condition.

One DRX cycle is defaulted as 2.56 seconds, and a DRX cycle includes activation period and dormancy period, and UE is in DRX activation period monitoring wireless channel, and in DRX dormancy period, UE is without monitoring wireless channel.

Fig. 1 is referred to, is that the embodiments of the invention provide a kind of schematic flow sheet of DRX operating methods.The present embodiment illustrates the idiographic flow of DRX operating methods from UE sides；Methods described may comprise steps of S101- steps S102.

S101, UE obtain DRX spreading parameters from serving BS, and the DRX spreading parameters are used to indicate that the UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1；

Specifically, the mode that UE obtains the DRX spreading parameters can be：

UE, which is received, carries DRX spreading parameters in the system broadcast information that the base station is sent, the system broadcast information, the DRX spreading parameters are parsed from the system broadcast information；

Or, UE receives the dedicated signaling that the base station is sent, and the dedicated signaling carries DRX spreading parameters, the DRX spreading parameters are parsed from the dedicated signaling；

Or, when UE needs to be converted to idle condition from connection status, UE receives the radio resource control RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries DRX spreading parameters, and the DRX spreading parameters are parsed from the RRC Connection Releases procedural information；It should be noted that, the DRX spreading parameters are also used as the signing parameter of the UE, directly configured on the UE by operator, when the UE adds cell, the UE directly obtains the DRX spreading parameters by parameter of contracting, by the way of the signing parameter of the UE, the UE from the base station without obtaining DRX spreading parameters；And the base station receives the parameter dedicated signaling that mobility management entity (Mobility Management Entity, Μ Μ Ε) is sent, the parameter dedicated signaling carries Μ Μ Ε from home subscriber server（Home Subscriber Server, HSS) in obtain the UE subscription data in DRX spreading parameters, now, the base station is sent to the UE without by DRX spreading parameters. Wherein, described to carry out the activation period that a DRX operation enters a DRX for the UE, the DRX spreading parameters are used for the activation period for indicating that the UE enters a DRX per N number of DRX cycle, and the N is the integer more than 1.

S102, the UE carry out a DRX per N number of DRX cycle according to the DRX spreading parameters and operated；

Specifically, in the case where the UE opens DRX, the UE is got after the DRX spreading parameters, enter DRX activation period per N number of DRX cycle according to the DRX spreading parameters, for example, the UE enters DRX activation period in first DRX cycle, at remaining（N- 1) in individual DRX cycle, the UE does not enter DRX activation period, the dormancy period for the DRX being constantly in.

It is that the embodiments of the invention provide the schematic diagram that UE carries out DRX operations according to DRX spreading parameters please also refer to Fig. 2.Illustrated in Fig. 2 with N=3, it is to be understood that N=3 shown in Fig. 2 are only for example, in practical application, N can be the arbitrary integer more than 1, and the description of example shown in Fig. 2 is also can be found in when N is other integers.

As shown in Fig. 2 in the case where UE opens DRX, N=3, UE knows that every 3 DRX cycles carry out a DRX and operated according to DRX spreading parameters, i.e. every 3 DRX cycles of UE enter DRX activation period.UE enters activation period in DRX cycle 1, in DRX cycle 2 and DRX cycles 3, the UE-straight dormancy period for being in DRX, UE again goes into activation period in DRX cycle 4, in DRX cycle 5 and DRX cycle 6, the UE-straight dormancy period for being in DRX.Now, T1 is the duration of 3 DRX cycles, the duration that t operates for DRX of progress.Certainly, UE herein is only for example in the activation period that DRX cycle 1 and DRX cycle 4 enter DRX, for other situations, for example in the case of N=3, UE can also enter DRX activation period in DRX cycle 2 and DRX cycle 5, or UE can also also can be found in the description of example shown in Fig. 2 in the activation period of DRX cycle 3 and DRX cycle 6 into DRX.

In embodiments of the present invention, DRX spreading parameters are configured with to UE by UE serving BS, the UE can be made to be entered according to DRX spreading parameters per N number of DRX cycle and once activate period, reducing UE needs to continuously enter the frequency that DRX activates period, and then UE power consumption is reduced, for phase To relatively more idle UE, the battery that can extend UE uses duration, and user improves UE operating efficiency without frequently changing battery for UE.Fig. 3 is referred to, is that the embodiments of the invention provide the schematic flow sheet of another DRX operating methods.The present embodiment illustrates the idiographic flow of DRX operating methods from UE sides；Methods described may comprise steps of S201- steps S202.

S201, UE obtain time parameter from serving BS, and the time parameter is used to indicate that the UE carries out DRX operations in preset time period；

Specifically, the mode that UE obtains the time parameter can be：

UE is received in the system broadcast information that the base station is sent, the system broadcast information and is carried time parameter, and the time parameter is parsed from the system broadcast information；

Or, UE receives the dedicated signaling that the base station is sent, and the dedicated signaling carries time parameter, the time parameter is parsed from the dedicated signaling；

Or, when UE needs to be converted to idle condition from connection status, UE receives the radio resource control RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries time parameter, and the time parameter is parsed from the RRC Connection Releases procedural information.

It should be noted that, the time parameter is also used as the signing parameter of the UE, directly configured on the UE by operator, when the UE adds cell, the UE directly obtains the time parameter by parameter of contracting, by the way of the signing parameter of the UE, the UE from the base station without obtaining time parameter；And the base station receives the parameter dedicated signaling that MME is sent, and the ginseng base station is sent to the UE without by time parameter.

Wherein, the progress DRX operations enter DRX activation period for the UE, and the time parameter is used to indicate that the UE carries out DRX operations in preset time period.

S202, the UE carry out DRX operations according to the time parameter；

Specifically, the UE according to the time parameter can know progress DRX operations at the beginning of between and the end time, at the beginning of the carry out DRX operations between and the end time can be absolute time, institute Absolute time is stated between at the beginning of daily preset time period and the end time, such as it is daily 9 points to 10 points, or daily 20 points to 22 points etc..The UE opens DRX according to the time started, DRX is closed according to the end time, and each DRX cycle in the period of time started to end time carries out a DRX operation, the DRX operating process entered in the activation period of a DRX cycle, the period is same as the prior art, is stated herein without praising, and except remaining time of the period, UE then closes DRX, and when the UE for closing DRX is in idle condition, UE will not monitor common signal channel；When close DRX UE be in connection status when, UE without wireless signal transmitting and reception.

Or the UE according to the time parameter can know progress DRX operations at the beginning of between and preset time period, can be absolute time, the fixation duration that the preset time period can backward be continued on the basis of the time started between at the beginning of the progress DRX operations.Such as daily 9 points proceed by DRX operations, and continue 1 hour etc..The UE opens DRX according to the time started, and each DRX cycle in preset time period carries out a DRX operation, enter the activation period of a DRX cycle, DRX operating process in the preset time period is same as the prior art, stated herein without praising, and except remaining time of the preset time period, UE then closes DRX, when the UE for closing DRX is in idle condition, UE will not monitor common signal channel；When close DRX UE be in connection status when, UE without wireless signal transmitting and reception.

Please also refer to Fig. 4, the embodiments of the invention provide the schematic diagram that UE carries out DRX operations according to time parameter.Using at 9 points in time started as the morning in Fig. 4, end time is at 10 points in the morning or preset time period is to illustrate 1 hour, it is appreciated that, being only for example shown in Fig. 4, in practical application, time started can be any one moment among one day, and the end time can also be for any one moment among one day, the fixation duration that preset time period can backward be continued on the basis of the time started.Also the description of example shown in Fig. 4 is can be found in when between upon start for other any one moment among one day.

As shown in Figure 4, the time started is at 9 points in the morning, UE is in 9 points of unlatching DRX of the morning, and DRX are closed at 10 points in the morning or DRX are opened at 9 in the morning, and open DRX and continue 1 hour, each DRX cycles of the UE in 9 points of periods to 10 points of this 1 hours of the morning enters activation period, and in remaining time on the day of, the UE-directly close DRX, now, T2 is the duration of a DRX cycle, the duration that t operates for DRX of progress. The UE according to the time parameter can know progress DRX operations at the beginning of between and the end time, between at the beginning of the progress DRX operations and the end time can be relative time, the relative time is UE between Fixed Time Interval carries out at the beginning of DRX operations and the end time, UE is every a fixed time interval, open the DRX of a preset time period, such as UE is at 9 points in the morning at the time of obtaining the time parameter, then using the morning 9 points be used as the time started, and in 9 points of unlatching DRX of the morning, preset time period is 1 hour, then using the morning 10 points be used as the end time, and in 10 points of closing DRX of the morning, and it is spaced at a fixed time（It is assumed to be 3 hours）Afterwards, i.e., the time started is at 1 point in afternoon, is again turned on the DRX of 1 hour, and at the end between 2 pm close DRX, by that analogy.Each DRX cycles of the UE in any preset time period carries out a DRX operation, enter the activation period of DRX cycle, and in any fixed time interval, UE then closes DRX, when the UE for closing DRX is in idle condition, UE will not monitor common signal channel；When close DRX UE be in connection status when, UE without wireless signal transmitting and reception.

Or the UE according to the time parameter can know progress DRX operations at the beginning of between and preset time period, can be relative time, the fixation duration that the preset time period can backward be continued on the basis of the time started between at the beginning of the progress DRX operations.UE is every a fixed time interval, open the DRX of a preset time period, such as UE is at 9 points in the morning at the time of obtaining the time parameter, then using the morning 9 points be used as the time started, and in 9 points of unlatching DRX of the morning, preset time period is 1 hour, then UE closes DRX after 1 hour, and is spaced at a fixed time（It is assumed to be 3 hours）Afterwards, i.e., the time started is at 1 point in afternoon, is again turned on the DRX of 1 hour, by that analogy.Each DRX cycles of the UE in any preset time period carries out a DRX operation, enter the activation period in DRX cycles, and in any fixed time interval, UE then closes DRX, when the UE for closing DRX is in idle condition, UE will not monitor common signal channel；When close DRX UE be in connection status when, UE without wireless signal transmitting and reception.

In embodiments of the present invention, time parameter is configured with to UE by UE serving BS, UE can be made to open DRX according to special time period of the time parameter among one day, and DRX is then closed within remaining time, and the process of channel-monitoring or signal transmitting and receiving is not carried out, reducing UE needs to continuously enter the frequency in DRX activation periods, and then reduces UE power consumption, for relatively idle UE The battery that UE can be extended uses duration, and user improves UE operating efficiency without frequently changing battery for UE.Please also refer to Fig. 1 and Fig. 3, with reference to embodiment illustrated in fig. 1 and embodiment illustrated in fig. 3, UE can also obtain time parameter and DRX spreading parameters simultaneously, the UE knows duration and the end time of DRX operations according to time parameter, or duration and duration, and according to DRX spreading parameters in the period of the duration and end time, or in the duration, a DRX operation is carried out every N number of DRX cycle, N is the integer more than 1.For example, UE is in daily 9 points of unlatching DRX of the morning, in daily 10 points of closing DRX of the morning, UE carries out a DRX operation in 9 points to 10 points this periods every 3 DRX cycles, enter DRX activation period, and remaining DRX cycle of UE in 9 points to 10 points this periods, then it is constantly in DRX dormancy period, UE then closes DRX at 9 points to 10 points except every morning, when the UE for closing DRX is in idle condition, UE will not monitor common signal channel；When close DRX UE be in connection status when, UE without wireless signal transmitting and reception.Certainly, the mode that UE herein carries out DRX operations is only for example, for other situations, such as UE carries out DRX operations according to time parameter in preset time period, and the time beyond the preset time period then carries out a DRX per N number of DRX cycle according to DRX spreading parameters and operated, specific process may refer to the associated description of step S202 shown in step S102 shown in Fig. 1 and Fig. 3, be stated herein without praising.

In embodiments of the present invention, for the combination of time parameter and DRX spreading parameters, the demand of UE various periods can be met, for example, if the period indicated by the time parameter that UE is obtained is longer, and without frequently carrying out channel-monitoring or signal transmitting and receiving within the period, can be performed within the period by the way of configuration DRX spreading parameters；If UE is still needing progress channel-monitoring or signal transmitting and receiving in addition to the period indicated by time parameter, it can be performed by way of being reconfigured at DRX spreading parameters.The UE of different demands is met, the battery that can extend UE uses duration, and user improves UE operating efficiency without frequently changing battery for UE.Fig. 5 is referred to, is that the embodiments of the invention provide the schematic flow sheet of another DRX operating method. The present embodiment illustrates the idiographic flow of the method for DRX operations from base station side；Methods described may comprise steps of S301.

S301, base station sends DRX spreading parameters to the UE serviced, and the DRX spreading parameters are used to indicate that the UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1；Specifically, described carry out the activation period that a DRX operation enters a DRX for the UE, the DRX spreading parameters are used for the activation period for indicating that the UE enters a DRX per N number of DRX cycle, and the N is the integer more than 1.

The base station can be to the UE modes for sending DRX spreading parameters：

The system broadcast information for carrying DRX spreading parameters is sent to the UE;

Or, the dedicated signaling for carrying DRX spreading parameters is sent to the UE;

Or, when the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying DRX spreading parameters are sent to the UE.

When the UE receives the DRX spreading parameters that the base station is sent, the UE carries out a DRX per N number of DRX cycle according to the DRX spreading parameters and operated, please also refer to the associated description of step S102 shown in Fig. 1, herein without repeating.

It should be noted that the mode that the base station obtains the DRX spreading parameters of the UE can obtain the DRX spreading parameters for the base station according to the configuration information of itself, the configuration information is directly configured by operator for the base station.

The base station can also receive the parameter dedicated signaling of MME transmissions, the parameter dedicated signaling carries DRX spreading parameters, the base station parses the DRX spreading parameters from the parameter dedicated signaling, the DRX spreading parameters can as the UE subscription data, MME obtains the DRX spreading parameters in the UE subscription data by HSS, using this mode, the base station is when the DRX spreading parameters are obtained, without again sending the DRX spreading parameters to the UE;And the UE directly obtains the DRX spreading parameters by parameter of contracting, by the way of the signing parameter of the UE, the UE from the base station without obtaining the DRX spreading parameters.

The DRX spreading parameters are known in the base station, the DRX cycle that the UE carries out DRX operations can be obtained according to DRX spreading parameters, and when the UE carries out DRX operations again, sent out to the UE Send beep-page message or carry out signal transmitting and receiving with the UE, certainly, the base station can also be in each DRX cycles to UE transmission beep-page messages, and the UE only receives the beep-page message of the base station transmission when DRX operations are carried out or carries out signal transmitting and receiving with the base station.

In embodiments of the present invention, base station is configured with DRX spreading parameters by the UE serviced base station, the UE can be made to be entered according to DRX spreading parameters per N number of DRX cycle and once activate period, reducing UE needs to continuously enter the frequency that DRX activates period, and then UE power consumption is reduced, for relatively idle UE, the battery that can extend UE uses duration, user improves UE operating efficiency without frequently changing battery for UE.Fig. 6 is referred to, is that the embodiments of the invention provide the schematic flow sheet of another DRX operating method.The present embodiment illustrates the idiographic flow of the method for DRX operations from base station side；Methods described may comprise steps of S401.

S401, base station sends time parameter to the UE serviced, and the time parameter is used to indicate that the UE carries out DRX operations in preset time period；

Specifically, the progress DRX operations enter DRX activation period for the UE, the time parameter is used to indicate that the UE carries out DRX operations in preset time period.

The base station can be to the UE modes for sending time parameter：

The system broadcast information for carrying time parameter is sent to the UE;

Or, the dedicated signaling for carrying time parameter is sent to the UE;

Or, when the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying time parameter are sent to the UE.

When the UE receives the time parameter that the base station is sent, the UE carries out DRX operations in the preset time period indicated by time parameter, please also refer to the associated description of step S202 shown in Fig. 3, herein without repeating.

It should be noted that the mode that the base station obtains the time parameter of the UE can obtain the time parameter for the base station according to the configuration information of itself, the configuration information is directly configured by operator for the base station. The base station can also receive the parameter dedicated signaling of MME transmissions, the parameter dedicated signaling carries time parameter, the base station parses the time parameter from the parameter dedicated signaling, the subscription data for the UE that the time parameter can be serviced as the base station, MME obtains the time parameter in the UE subscription data by HSS, using this mode, the base station is when the time parameter is obtained, without again sending the time parameter to the UE.And the UE directly obtains the time parameter by parameter of contracting, by the way of the signing parameter of the UE, the UE from the base station without obtaining the time parameter.

Know the time parameter in the base station, the DRX cycle that the UE carries out DRX operations can be obtained according to time parameter, and when the UE carries out DRX operations again, beep-page message is sent to the UE or carries out signal transmitting and receiving with the UE, certainly, the base station can also be in each DRX cycle to UE transmission beep-page messages, and the UE only receives the beep-page message of the base station transmission when DRX operations are carried out or carries out signal transmitting and receiving with the base station.

Further, the base station can also send time parameter and DRX spreading parameters simultaneously to the UE, the UE according to time parameter know DRX operation at the beginning of between and the end time, or time started and preset time period, and according to DRX spreading parameters in the period of the time started and end time, or in the default period, a DRX operation is carried out every N number of DRX cycle, N is the integer more than 1.For example, UE is in daily 9 points of unlatching DRX of the morning, DRX is closed in daily at 10 points in the morning or daily 9 points of unlatching DRX of the morning, and close DRX after 1 hour is opened, UE carries out a DRX operation in 9 points to 10 points this periods every 3 DRX cycles, enter DRX activation period, and remaining DRX cycle of UE in 9 points to 10 points this periods, then it is constantly in DRX dormancy period, UE then closes DRX at 9 points to 10 points except every morning, when the UE for closing DRX is in idle condition, UE will not monitor common signal channel；When close DRX UE be in connection status when, UE without wireless signal transmitting and reception.Certainly, the mode that UE herein carries out DRX operations is only for example, for other situations, such as UE carries out DRX operations according to time parameter in preset time period, and the time beyond the preset time period then carries out a DRX per N number of DRX cycle according to DRX spreading parameters and operated, specific process may refer to the associated description of step S202 shown in step S102 shown in Fig. 1 and Fig. 3, be stated herein without praising. In embodiments of the present invention, base station is configured with time parameter by the UE serviced base station, UE can be made to open DRX according to special time period of the time parameter among one day, and DRX is then closed within remaining time, and it is not carried out the process of channel-monitoring or signal transmitting and receiving, reducing UE needs to continuously enter the frequency that DRX activates period, and then reduce UE power consumption, can also be on the basis of time parameter be configured with, it is reconfigured at DRX spreading parameters, the UE of different demands can be satisfied with, for relatively idle UE, the battery that UE can be extended uses duration, user for UE without frequently changing battery, improve UE operating efficiency.Fig. 7 is referred to, is that the embodiments of the invention provide a kind of structural representation of user equipment.As shown in Fig. 7, the UE10 of the embodiment of the present invention includes：

Spreading parameter acquisition module 11, for obtaining discontinuous reception DRX spreading parameters from serving BS, the DRX spreading parameters are used to indicate that UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1；

In the specific implementation, the mode that the spreading parameter acquisition module 11 obtains the DRX spreading parameters can be：

The spreading parameter obtains ear ^, and block 11 does not receive carrying DRX spreading parameters in the system broadcast information that the base station is sent, the system broadcast information, and the DRX spreading parameters are parsed from the system broadcast information；

Or, the spreading parameter acquisition module 11 receives the dedicated signaling that the base station is sent, and the dedicated signaling carries DRX spreading parameters, the DRX spreading parameters are parsed from the dedicated signaling；Or, when UE10 needs to be converted to idle condition from connection status, the spreading parameter acquisition module 11 receives the radio resource control RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries DRX spreading parameters, and the DRX spreading parameters are parsed from the RRC Connection Releases procedural information；

It should be noted that, the DRX spreading parameters are also used as the signing parameter of the UE10, directly configured on the UE10 by operator, when the UE10 adds cell, the spreading parameter acquisition module 11 directly obtains the DRX spreading parameters by parameter of contracting, using the UE10 Signing parameter mode, the UE10 without from the base station obtain DRX spreading parameters；And the base station receives the parameter dedicated signaling that MME is sent, the parameter dedicated signaling carries the DRX spreading parameters in the UE10 subscription data that MME is obtained from HSS, now, the base station is sent to the UE10 without by DRX spreading parameters.

Wherein, described to carry out the activation period that a DRX operation enters a DRX for the UE10, the DRX spreading parameters are used for the activation period for indicating that the UE10 enters a DRX per N number of DRX cycle, and the N is the integer more than 1.

Specifically, being that the embodiments of the invention provide the structural representation of spreading parameter acquisition module please also refer to Fig. 8.As shown in figure 8, the extension ^ t acquisition modules 11 include：Receiving unit 111, resolution unit 112.Specifically for：

Receiving unit 111, DRX spreading parameters are carried for receiving in the system broadcast information that the base station is sent, the system broadcast information.

Resolution unit 112, for the system broadcast information received according to receiving unit 111, parses the DRX spreading parameters from the system broadcast information.

Optionally：

Receiving unit 111, for receiving the dedicated signaling that the base station is sent, the dedicated signaling carries DRX spreading parameters.

Resolution unit 112, for the dedicated signaling received according to receiving unit 111, parses the DRX spreading parameters from the dedicated signaling.

Optionally：

Receiving unit 111, for receiving the radio resource control RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries DRX spreading parameters.

Resolution unit 112, for receiving the RRC Connection Release procedural informations that the base station is sent according to receiving unit 111, parses the DRX spreading parameters from the RRC Connection Releases procedural information.

Operation module 12, for according to the DRX spreading parameters, being carried out once per N number of DRX cycle

DRX is operated；

In the specific implementation, in the case where the UE10 opens DRX, the spreading parameter obtains mould Block 11 is got after the DRX spreading parameters, the operation module 12 enters DRX activation period according to the DRX spreading parameters per N number of DRX cycle, for example, the UE10 enters DRX activation period in first DRX cycle, at remaining（N-1) in individual DRX cycle, the UE10 does not enter DRX activation period, the dormancy period for the DRX being constantly in.

It is that the embodiments of the invention provide the schematic diagram that UE carries out DRX operations according to DRX spreading parameters please also refer to Fig. 2.Illustrated in Fig. 2 with N=3, it is to be understood that N=3 shown in Fig. 2 are only for example, in practical application, N can be the arbitrary integer more than 1, and the description of example shown in Fig. 2 is also can be found in when N is other integers.

As shown in Figure 2, in the case where UE opens DRX, N=3, the operation module 12 knows that every 3 DRX cycles carry out a DRX and operated according to DRX spreading parameters, i.e., described 12 every 3 DRX cycles of operation module enter DRX activation period.The operation module 12 enters activation period in DRX cycle 1, in DRX cycle 2 and DRX cycle 3, the operation module 12-straight dormancy the period for being in DRX, the operation module 12 again goes into activation period in DRX cycle 4, in DRX cycles 5 and DRX cycle 6, the operation module 12-straight dormancy period for being in DRX.Now, T1 is the duration of 3 DRX cycles, the duration that t operates for DRX of progress.Certainly, the operation module 12 herein is only for example in the activation period that DRX cycle 1 and DRX cycle 4 enter DRX, for other situations, for example in the case of N=3, the operation module 12 can also enter DRX activation period in DRX cycle 2 and DRX cycle 5, or the operation module 12 can also also can be found in the description of example shown in Fig. 2 in the activation period of DRX cycle 3 and DRX cycle 6 into DRX.

In embodiments of the present invention, DRX spreading parameters are configured with to UE by UE serving BS, the UE can be made to be entered according to DRX spreading parameters per N number of DRX cycle and once activate period, reducing UE needs to continuously enter the frequency that DRX activates period, and then UE power consumption is reduced, for relatively idle UE, the battery that can extend UE uses duration, user improves UE operating efficiency without frequently changing battery for UE.Fig. 9 is referred to, is that the embodiments of the invention provide another UE structural representation.Such as Fig. 9 institutes Show, the UE20 of the embodiment of the present invention includes：

Time parameter obtains ear ^ not block 21, and for obtaining time parameter from serving BS, the time parameter is used to indicate that UE carries out DRX operations in preset time period；

In the specific implementation, the mode that the time parameter acquisition module 21 obtains the time parameter can be：The time parameter is obtained in the system broadcast information that not block 21 receives the base station transmission, the system broadcast information and carries time parameter, and the time parameter is parsed from the system broadcast information；

Or, the time parameter acquisition module 21 receives the dedicated signaling that the base station is sent, and the dedicated signaling carries time parameter, the time parameter is parsed from the dedicated signaling；

Or, when UE20 needs to be converted to idle condition from connection status, the time parameter acquisition module 21 receives the radio resource control RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries time parameter, and the time parameter is parsed from the RRC Connection Releases procedural information.Business is directly configured on the UE20, when the UE20 adds cell, the time parameter acquisition module 21 directly obtains the time parameter by parameter of contracting, by the way of the signing parameter of the UE20, and the UE20 from the base station without obtaining time parameter；And the base station receives the parameter dedicated signaling that MME is sent, the parameter dedicated signaling carrying MME obtains the time parameter in the UE20 subscription data from HSS, and now, the base station is sent to the UE20 without by time parameter.

Wherein, the progress DRX operations enter DRX activation period for the UE20, and the time parameter is used to indicate that the UE20 carries out DRX operations in preset time period.

Specifically, being that the embodiments of the invention provide the structural representation of time parameter acquisition module please also refer to Figure 10.As shown in Figure 10, the time parameter acquisition module 21 includes：Receiving unit 211, resolution unit 212.Specifically for：

Receiving unit 211, time parameter is carried for receiving in the system broadcast information that the base station is sent, the system broadcast information.

Resolution unit 212, for the system broadcast information received according to receiving unit 211, parses the time parameter from the system broadcast information. Optionally：

Receiving unit 211, for receiving the dedicated signaling that the base station is sent, the dedicated signaling carries time parameter.

Resolution unit 212, for the dedicated signaling received according to receiving unit 211, parses the time parameter from the dedicated signaling.

Receiving unit 211, for receiving the RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries time parameter.

Optionally：

Resolution unit 212, for receiving the RRC Connection Release procedural informations that the base station is sent according to receiving unit 211, the time parameter is parsed from the RRC Connection Releases procedural information.

Operation module 22, for carrying out DRX operations according to the time parameter；

In implementing, the operation module 22 according to the time parameter can know progress DRX operations at the beginning of between and the end time, between at the beginning of the progress DRX operations and the end time can be absolute time, the absolute time be daily preset time period at the beginning of between and the end time, it is for example daily 9 points to 10 points, or daily 20 points to 22 points etc..The operation module 22 opens DRX according to the time started, DRX is closed according to the end time, and each DRX cycle in the period of time started to end time carries out a DRX operation, enter the activation period of a DRX cycle, DRX operating process in the period is same as the prior art, stated herein without praising, and except remaining time of the period, the operation module 22 then closes DRX, when the UE20 for closing DRX is in idle condition, the operation module 22 will not monitor common signal channel；When close DRX UE20 be in connection status when, the operation module 22 without wireless signal transmitting and reception.

Or the operation module 22 according to the time parameter can know progress DRX operations at the beginning of between and preset time period, can be absolute time, the fixation duration that the preset time period can backward be continued on the basis of the time started between at the beginning of the progress DRX operations.Such as daily 9 points start the operation module 22 and carry out DRX operations, and continue 1 hour etc..The operation module 22 opens DRX according to the time started, and each DRX cycle in preset time period carry out DRX operating process in a DRX operation, i.e. the activation period into a DRX cycle, the preset time period with it is existing Technology is identical, herein without repeating, and except remaining time of the preset time period, the operation module 22 then closes DRX, and when the UE20 for closing DRX is in idle condition, the operation module 22 will not monitor common signal channel；When close DRX UE20 be in connection status when, the operation module 22 without wireless signal transmitting and reception.

Please also refer to Fig. 4, the embodiments of the invention provide the schematic diagram that UE carries out DRX operations according to time parameter.Using at 9 points in time started as the morning in Fig. 4, end time is at 10 points in the morning or preset time period is to illustrate 1 hour, it is appreciated that, being only for example shown in Fig. 4, in practical application, time started can be any one moment among one day, and the end time can also be for any one moment among one day, the fixation duration that preset time period can backward be continued on the basis of the time started.Also the description of example shown in Fig. 4 is can be found in when between upon start for other any one moment among one day.

As shown in Figure 4, the time started is at 9 points in the morning, the operation module 22 is in 9 points of unlatching DRX of the morning, and DRX are closed at 10 points in the morning or DRX are opened at 9 in the morning, and open DRX and continue 1 hour, each DRX cycle of the operation module 22 in 9 points of periods to 10 points of this 1 hours of the morning enters activation period, and in remaining time on the day of, the operation module 22 closes DRX always, now, T2 is the duration of a DRX cycle, the duration that t operates for DRX of progress.

The operation module 22 according to the time parameter can know progress DRX operations at the beginning of between and the end time, between at the beginning of the progress DRX operations and the end time can be relative time, the relative time is UE between Fixed Time Interval carries out at the beginning of DRX operations and the end time, the operation module 22 is every a fixed time interval, open the DRX of a preset time period, such as described time parameter acquisition module 21 is at 9 points in the morning at the time of obtaining the time parameter, then the operation module 22 regard the morning as the time started at 9 points, and in 9 points of unlatching DRX of the morning, preset time period is 1 hour, then the operation module 22 regard the morning as the end time at 10 points, and in 10 points of closing DRX of the morning, and interval Jia is set to 3 hours at a fixed time）Afterwards, i.e., the time started is at 1 point in afternoon, and the operation module 22 is again turned on the DRX of 1 hour, and at the end between 2 points of closing DRX in afternoon, by that analogy.Each DRX cycle of the operation module 22 in any preset time period carries out a DRX operation, i.e. the activation period into DRX cycle, and in any fixation In time interval, the operation module 22 then closes DRX, and when the UE20 for closing DRX is in idle condition, the operation module 22 will not monitor common signal channel；When close DRX UE20 be in connection status when, the operation module 22 without wireless signal transmitting and reception.

Or the operation module 22 according to the time parameter can know progress DRX operations at the beginning of between and preset time period, can be relative time, the fixation duration that the preset time period can backward be continued on the basis of the time started between at the beginning of the progress DRX operations.The operation module 22 is every a fixed time interval, open the DRX of a preset time period, it is at 9 points in the morning that such as described time parameter, which obtains ear ^ at the time of block 21 does not obtain the time parameter, then the operation module 22 regard the morning as the time started at 9 points, and in 9 points of unlatching DRX of the morning, preset time period is 1 hour, then the operation module 22 closes DRX after 1 hour, and is spaced at a fixed time（It is assumed to be 3 hours）Afterwards, i.e., the time started is at 1 point in afternoon, and the operation module 22 is again turned on the DRX of 1 hour, by that analogy.Each DRX cycle of the operation module 22 in any preset time period carries out a DRX operation, enter the activation period of DRX cycle, and in any fixed time interval, the operation module 22 then closes DRX, when the UE20 for closing DRX is in idle condition, the operation module 22 will not monitor common signal channel；When close DRX UE20 be in connection status when, the operation module 22 without wireless signal transmitting and reception.

In embodiments of the present invention, time parameter is configured with to UE by UE serving BS, UE can be made to open DRX according to special time period of the time parameter among one day, and DRX is then closed within remaining time, and it is not carried out the process of channel-monitoring or signal transmitting and receiving, reducing UE needs to continuously enter the frequency that DRX activates period, and then reduce UE power consumption, for relatively idle UE, the battery that UE can be extended uses duration, user improves UE operating efficiency without frequently changing battery for UE.Figure 11 is referred to, is that the embodiments of the invention provide a kind of structural representation of base station.As shown in figure 11, the base station 30 of the embodiment of the present invention includes：

Spreading parameter sending module 31, for sending DRX spreading parameters to the UE serviced, the DRX spreading parameters are used to indicate that the UE carries out a DRX operation per N number of DRX cycle, and N is Integer more than 1；

In the specific implementation, described carry out the activation period that a DRX operation enters a DRX for the UE, the DRX spreading parameters are used for the activation period for indicating that the UE enters a DRX per N number of DRX cycle, and the N is the integer more than 1.

The spreading parameter sending module 31 to the UE send DRX spreading parameters mode can be：The system broadcast information for carrying DRX spreading parameters is sent to the UE;

Or, the dedicated signaling for carrying DRX spreading parameters is sent to the UE;

Or, when the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying DRX spreading parameters are sent to the UE.

It is described when the UE receives the DRX spreading parameters that the spreading parameter sending module 31 is sent

UE carries out a DRX per N number of DRX cycle according to the DRX spreading parameters and operated, and please also refer to the associated description of step S102 shown in Fig. 1, is stated herein without praising.

It should be noted that the mode that the base station 30 obtains the DRX spreading parameters of the UE can obtain the DRX spreading parameters for the base station 30 according to the configuration information of itself, the configuration information is directly configured by operator for the base station.

The base station 30 can also receive the parameter dedicated signaling of MME transmissions, the parameter dedicated signaling carries DRX spreading parameters, the base station 30 parses the DRX spreading parameters from the parameter dedicated signaling, the DRX spreading parameters can as the UE subscription data, MME obtains the DRX spreading parameters in the UE subscription data by HSS, using this mode, the base station 30 is when the DRX spreading parameters are obtained, without again sending the DRX spreading parameters to the UE;And the UE directly obtains the DRX spreading parameters by parameter of contracting, by the way of the signing parameter of the UE, the UE from the base station 30 without obtaining the DRX spreading parameters.

Know the DRX spreading parameters in the base station 30, the DRX cycle that the UE carries out DRX operations can be obtained according to DRX spreading parameters, and when the UE carries out DRX operations again, beep-page message is sent to the UE or carries out signal transmitting and receiving with the UE, certainly, the base station 30 can also be in each DRX cycle to UE transmission beep-page messages, and the UE only receives the beep-page message of the transmission of base station 30 when DRX operations are carried out or carries out signal transmitting and receiving with the base station. Specifically, being that the embodiments of the invention provide the structural representation of spreading parameter sending module please also refer to Figure 12.As shown in figure 12, the spreading parameter sending module 31 includes：

Transmitting element 311, for the system broadcast information for carrying DRX spreading parameters to be sent into the UE;In the specific implementation, the system broadcast information for carrying DRX spreading parameters can be sent to UE all in the cell that the base station 30 is serviced by the broadcast message transmitting element 311.

Optionally：

Transmitting element 311, for the dedicated signaling for carrying DRX spreading parameters to be sent into the UE;In the specific implementation, the dedicated signaling for carrying DRX spreading parameters can be sent to a certain UE specified in the cell that the base station 30 is serviced by the transmitting element 311;The dedicated signaling for carrying DRX spreading parameters can also be sent to UE all in the cell that the base station 30 is serviced.

Optionally：

Transmitting element 311, for when the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying DRX spreading parameters to be sent into the UE;

In the specific implementation, when UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying DRX spreading parameters can be sent to the UE by the transmitting element 311.

In embodiments of the present invention, base station is configured with DRX spreading parameters by the UE serviced base station, the UE can be made to be entered according to DRX spreading parameters per N number of DRX cycle and once activate period, reducing UE needs to continuously enter the frequency that DRX activates period, and then UE power consumption is reduced, for relatively idle UE, the battery that can extend UE uses duration, user improves UE operating efficiency without frequently changing battery for UE.Figure 13 is referred to, is that the embodiments of the invention provide the structural representation of another base station.As shown in Figure 13, the base station 40 of the embodiment of the present invention includes：

Time parameter sending module 41, for sending time parameter to the UE serviced, the time parameter is used to indicate that the UE carries out DRX operations in preset time period；

In the specific implementation, the progress DRX operations enter DRX activation period for the UE, the time parameter is used to indicate that the UE carries out DRX operations in preset time period. The time parameter sending module 41 to the UE send time parameter mode can be：The system broadcast information for carrying time parameter is sent to the UE;

Or, the dedicated signaling for carrying time parameter is sent to the UE;

Or, when the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying time parameter are sent to the UE.

When the UE receives the time parameter that the time parameter sending module 41 is sent, the UE carries out DRX operations in the preset time period indicated by time parameter, please also refer to the associated description of step S202 shown in Fig. 3, stated herein without praising.

It should be noted that the mode that the base station 40 obtains the time parameter of the UE can obtain the time parameter for the base station according to the configuration information of itself, the configuration information is directly configured by operator for the base station.

The base station 40 can also receive the parameter dedicated signaling of MME transmissions, the parameter dedicated signaling carries time parameter, the base station 40 parses the time parameter from the parameter dedicated signaling, the subscription data for the UE that the time parameter can be serviced as the base station, MME obtains the time parameter in the UE subscription data by HSS, using this mode, the base station 40 is when the time parameter is obtained, without again sending the time parameter to the UE.And the UE directly obtains the time parameter by parameter of contracting, by the way of the signing parameter of the UE, the UE from the base station 40 without obtaining the time parameter.

Know the time parameter in the base station 40, the DRX cycle that the UE carries out DRX operations can be obtained according to time parameter, and when the UE carries out DRX operations again, beep-page message is sent to the UE or carries out signal transmitting and receiving with the UE, certainly, the base station can also be in each DRX cycle to UE transmission beep-page messages, and the UE only receives the beep-page message of the base station transmission when DRX operations are carried out or carries out signal transmitting and receiving with the base station.

Specifically, being that the embodiments of the invention provide the structural representation of time parameter sending module please also refer to Figure 14.As shown in figure 14, the time parameter sending module 41 includes：

Transmitting element 411, for the system broadcast information for carrying time parameter to be sent into the UE;In the specific implementation, the transmitting element 411 can send the system broadcast information for carrying time parameter All UE in the cell serviced to the base station 40.

Optionally：

Transmitting element 411, for the dedicated signaling for carrying time parameter to be sent into the UE;

In the specific implementation, the dedicated signaling for carrying time parameter can be sent to a certain UE specified in the cell that the base station 40 is serviced by the transmitting element 411;The dedicated signaling for carrying time parameter can also be sent to UE all in the cell that the base station 40 is serviced.

Optionally：

Transmitting element 411, for when the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying time parameter to be sent into the UE;

In the specific implementation, when UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying time parameter can be sent to the UE by the transmitting element 411.

Further, base station can also send time parameter and DRX spreading parameters simultaneously to the UE, the UE according to time parameter know DRX operation at the beginning of between and the end time, or time started and preset time period, and according to DRX spreading parameters in the period of the time started and end time, or in the default period, a DRX operation is carried out every N number of DRX cycle, N is the integer more than 1.For example, UE is in daily 9 points of unlatching DRX of the morning, DRX is closed in daily at 10 points in the morning or daily 9 points of unlatching DRX of the morning, and close DRX after 1 hour is opened, UE carries out a DRX operation in 9 points to 10 points this periods every 3 DRX cycles, enter DRX activation period, and remaining the DRX cycle of UE in 9 points to 10 points this periods, then it is constantly in DRX dormancy period, UE then closes DRX at 9 points to 10 points except every morning, when the UE for closing DRX is in idle condition, UE will not monitor common signal channel；When close DRX UE be in connection status when, UE without wireless signal transmitting and reception.Certainly, the mode that UE herein carries out DRX operations is only for example, for other situations, such as UE carries out DRX operations according to time parameter in preset time period, and the time beyond the preset time period then carries out a DRX per N number of DRX cycle according to DRX spreading parameters and operated, specific process may refer to the associated description of step S202 shown in step S102 shown in Fig. 1 and Fig. 3, be stated herein without praising.

In embodiments of the present invention, base station is configured with time parameter by the UE serviced base station, can be with UE is set to open DRX according to special time period of the time parameter among one day, and DRX is then closed within remaining time, and it is not carried out the process of channel-monitoring or signal transmitting and receiving, reducing UE needs to continuously enter the frequency that DRX activates period, and then reduce UE power consumption, can also be on the basis of time parameter be configured with, it is reconfigured at DRX spreading parameters, the UE of different demands can be satisfied with, for relatively idle UE, the battery that UE can be extended uses duration, user for UE without frequently changing battery, improve UE operating efficiency.Figure 15 is referred to, is the structural representation the embodiments of the invention provide another UE.As described in Figure 15, in one kind carries into execution a plan, the UE includes at least one receiver and processor.Wherein, processor is used for：

Receiver is controlled to obtain DRX spreading parameters from serving BS, the DRX spreading parameters are used to indicate that UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1；

A DRX operation is carried out per N number of DRX cycle according to the DRX spreading parameters.

Receiver is used for：DRX spreading parameters are obtained from serving BS.

Optionally：

Receiver is used for：Receive in the system broadcast information that the base station is sent, the system broadcast information and carry DRX spreading parameters；

In the specific implementation, processor can control receiver to receive the system broadcast information that the base station is sent.Processor is used for：The DRX spreading parameters are parsed from the system broadcast information, according to the DRX spreading parameters, a DRX operation is carried out per N number of DRX cycle.

Optionally：

Receiver is used for：The dedicated signaling that the base station is sent is received, the dedicated signaling carries DRX spreading parameters；

In the specific implementation, processor can control the dedicated signaling that base station described in receiver is sent.

Processor is used for：The DRX spreading parameters are parsed from the dedicated signaling, according to the DRX spreading parameters, a DRX operation is carried out per N number of DRX cycle.

Optionally： Receiver is used for：The RRC Connection Release procedural informations that the base station is sent are received, the RRC Connection Releases procedural information carries DRX spreading parameters；

In the specific implementation, processor can control receiver to receive the RRC Connection Release procedural informations that the base station is sent.

Processor is used for：The DRX spreading parameters are parsed from the RRC Connection Releases procedural information, according to the DRX spreading parameters, a DRX operation is carried out per N number of DRX cycle.Or, in another carry into execution a plan, the UE may include at least one receiver and processor.Wherein, processor is used for：

Receiver is controlled to obtain time parameter from serving BS, the time parameter is used to indicate that UE carries out DRX operations in preset time period；

DRX operations are carried out according to the time parameter.

Optionally：

Receiver is used for：Receive in the system broadcast information that the base station is sent, the system broadcast information and carry time parameter；

In the specific implementation, processor can control receiver to receive the system broadcast information that the base station is sent.Processor is used for：The time parameter is parsed from the system broadcast information, DRX operations are carried out according to the time parameter.

Optionally：

Receiver is used for：The dedicated signaling that the base station is sent is received, the dedicated signaling carries time parameter；In the specific implementation, processor can control the dedicated signaling that base station described in receiver is sent.

Processor is used for：The time parameter is parsed from the dedicated signaling, DRX operations are carried out according to the time parameter.

Optionally：

Receiver is used for：The RRC Connection Release procedural informations that the base station is sent are received, the RRC Connection Releases procedural information carries time parameter；

In the specific implementation, processor can control receiver to receive the RRC Connection Releases that the base station is sent Procedural information.

Processor is used for：The time parameter is parsed from the RRC Connection Releases procedural information, DRX operations are carried out according to the time parameter.

In embodiments of the present invention, DRX spreading parameters or time parameter are configured to UE by UE serving BS, UE allow according to DRX spreading parameters or time parameter, without carrying out DRX operations in each DRX cycle, reducing UE needs to continuously enter the frequency that DRX activates period, reduce UE power consumption, for relatively idle UE, the battery that UE can be extended uses duration, user improves UE operating efficiency without frequently changing battery for UE.Figure 16 is referred to, is the structural representation the embodiments of the invention provide another base station, as shown in Figure 16, in one kind carries into execution a plan, the base station includes processor and at least one transmitter；Wherein, the processor is used for：

Control transmitter sends DRX spreading parameters to the UE serviced, and the DRX spreading parameters are used to indicate that the UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1.

In implementing, processor is before control transmitter sends DRX spreading parameters to the UE serviced, the message for including DRX spreading parameters can be generated, the DRX spreading parameters are used to indicate that the UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1；The message comprising DRX spreading parameters can be cell broadcast messages, dedicated signaling or RRC Connection Release procedural informations.

Transmitter is used for：DRX spreading parameters are sent to the UE serviced；

In the specific implementation, the message comprising DRX spreading parameters that transmitter can generate processor is sent to the UE.

Optionally：

Processor is used for：The system broadcast information for carrying DRX spreading parameters is sent to the UE by control transmitter;

In the specific implementation, processor can generate the system broadcast information for including DRX spreading parameters, and control transmitter that the system broadcast information for carrying DRX spreading parameters is sent into the UE.

Transmitter is used for, and the system broadcast information for carrying DRX spreading parameters is sent into UE; In the specific implementation, the system broadcast information comprising DRX spreading parameters that transmitter can generate processor is sent to UE.

Optionally：

Processor is used for：The dedicated signaling for carrying DRX spreading parameters is sent to the UE by control transmitter;

In the specific implementation, processor can generate the dedicated signaling for including DRX spreading parameters, and control transmitter that the dedicated signaling for carrying DRX spreading parameters is sent into the UE.

Transmitter is used for, and the dedicated signaling for carrying DRX spreading parameters is sent into the UE;

In the specific implementation, the dedicated signaling comprising DRX spreading parameters that transmitter can generate processor is sent to UE.

Optionally：

Processor is used for：When the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying DRX spreading parameters are sent to the UE by control transmitter;

In implementing, when the UE is converted to idle condition from connection status, processor can generate the RRC Connection Release procedural informations comprising DRX spreading parameters, and control transmitter that the RRC Connection Release procedural informations for carrying DRX spreading parameters are sent into the UE.

Transmitter is used for, when the UE is converted to idle condition from connection status, and the RRC Connection Release procedural informations for carrying DRX spreading parameters are sent into the UE;

In the specific implementation, when the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations comprising DRX spreading parameters that transmitter can generate processor are sent to UE.Or, in second carries into execution a plan, the base station may include processor and at least one transmitter；Wherein, the processor is used for：

Control transmitter sends time parameter to the UE serviced, and the time parameter is used to indicate that the UE carries out DRX operations in preset time period；

In the specific implementation, processor is before control transmitter sends time parameter to the UE serviced, the message comprising time parameter can be generated, the time parameter is used to indicate the UE in preset time period Carry out DRX operations；The message comprising time parameter can be cell broadcast messages, dedicated signaling or RRC Connection Release procedural informations.

Transmitter is used for：Time parameter is sent to the UE serviced；

In the specific implementation, the message comprising time parameter that transmitter can generate processor is sent to the UE.

Optionally：

Processor is used for：The system broadcast information for carrying time parameter is sent to the UE by control transmitter;In the specific implementation, processor can generate the system broadcast information for including DRX spreading parameters, and control transmitter that the system broadcast information for carrying time parameter is sent into the UE.

Transmitter is used for, and the system broadcast information for carrying time parameter is sent into UE;

In the specific implementation, the system broadcast information comprising time parameter that transmitter can generate processor is sent to UE.

Optionally：

Processor is used for：The dedicated signaling for carrying time parameter is sent to the UE by control transmitter;In the specific implementation, processor can generate the dedicated signaling comprising time parameter, and control transmitter that the dedicated signaling for carrying time parameter is sent into the UE.

Transmitter is used for, and the dedicated signaling for carrying time parameter is sent into the UE;

In the specific implementation, the dedicated signaling comprising time parameter that transmitter can generate processor is sent to

UE。

Optionally：

Processor is used for：When the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying time parameter are sent to the UE by control transmitter;

In implementing, when the UE is converted to idle condition from connection status, processor can generate the RRC Connection Release procedural informations comprising time parameter, and control transmitter that the RRC Connection Release procedural informations for carrying time parameter are sent into the UE.

Transmitter is used for, when the UE is converted to idle condition from connection status, and the RRC Connection Release procedural informations for carrying time parameter are sent into the UE; In the specific implementation, when the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations comprising time parameter that transmitter can generate processor are sent to UE.

In embodiments of the present invention, the UE serviced by base station base station configures DRX spreading parameters or time parameter, UE allow according to DRX spreading parameters or time parameter, without carrying out DRX operations in each DRX cycle, reducing UE needs to continuously enter the frequency that DRX activates period, reduce UE power consumption, for relatively idle UE, the battery that UE can be extended uses duration, user improves UE operating efficiency without frequently changing battery for UE.Through the above description of the embodiments, it is apparent to those skilled in the art that the present invention can be realized with hardware, or firmware is realized, or combinations thereof mode is realized.When implemented in software, above-mentioned functions can be stored in computer-readable medium or be transmitted as one or more instructions on computer-readable medium or code.Computer-readable medium includes computer-readable storage medium and communication media, and wherein communication media includes being easy to any medium that computer program is transmitted from a place to another place.Storage medium can be any usable medium that computer can be accessed.As example but it is not limited to：Computer-readable medium can include RAM, ROM, EEPROM, CD-ROM or other optical disc storages, magnetic disk storage medium or other magnetic storage apparatus or can be used in carrying or store with instruct or data structure form desired program code and can by computer access any other medium.In addition.Any connection can be suitably turn into computer-readable medium.If for example, software is to use coaxial cable, optical fiber cable, twisted-pair feeder, Digital Subscriber Line（) or such as wireless technology of infrared ray, radio and microwave etc is transmitted from website, server or other remote sources DSL, then the wireless technology of coaxial cable, optical fiber cable, twisted-pair feeder, DSL or such as infrared ray, wireless and microwave etc be included in belonging to medium it is fixing in.As used in the present invention, disk（) and dish Disk（Disc compression laser disc) is included（CD), laser disc, laser disc, Digital Versatile Disc（DVD), floppy disk and Blu-ray Disc, the replicate data of the usual magnetic of which disk, and dish is then with laser come optical replicate data.Above combination above should also be as being included within the protection domain of computer-readable medium.

Above disclosure is only preferred embodiment of present invention, can not limit the interest field of the present invention, therefore the equivalent variations made according to the claims in the present invention with this certainly, still belongs to the scope that the present invention is covered.

Claims (29)

1. Claim

   1st, a kind of user equipment (UE), it is characterised in that including：

   Spreading parameter acquisition module, for obtaining discontinuous reception DRX spreading parameters from serving BS, the DRX spreading parameters are used to indicate that UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1；

   Operation module, is operated for carrying out a DRX per N number of DRX cycle according to the DRX spreading parameters.2nd, UE according to claim 1, it is characterised in that the spreading parameter acquisition module includes：Receiving unit, DRX spreading parameters are carried for receiving in the system broadcast information that the base station is sent, the system broadcast information；

   Resolution unit, for parsing the DRX spreading parameters from the system broadcast information.3rd, UE according to claim 1, it is characterised in that the spreading parameter acquisition module includes：Receiving unit, for receiving the dedicated signaling that the base station is sent, the dedicated signaling carries DRX spreading parameters；

   Resolution unit, for parsing the DRX spreading parameters from the dedicated signaling.4th, UE according to claim 1, it is characterised in that the spreading parameter acquisition module includes：Receiving unit, for receiving the radio resource control RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries DRX spreading parameters；

   Resolution unit, for parsing the DRX spreading parameters from the RRC Connection Releases procedural information.5th, a kind of user equipment (UE), it is characterised in that including：

   Time parameter acquisition module, for obtaining time parameter from serving BS, the time parameter is used to indicate that UE carries out DRX operations in preset time period； Operation module, for carrying out DRX operations according to the time parameter.

   6th, UE according to claim 5, it is characterised in that the time parameter acquisition module includes：Receiving unit, time parameter is carried for receiving in the system broadcast information that the base station is sent, the system broadcast information；

   Resolution unit, for parsing the time parameter from the system broadcast information.

   7th, UE according to claim 5, it is characterised in that the time parameter acquisition module includes：Receiving unit, for receiving the dedicated signaling that the base station is sent, the dedicated signaling carries time parameter；

   Resolution unit, for parsing the time parameter from the dedicated signaling.

   8th, UE according to claim 5, it is characterised in that the time parameter acquisition module includes：Receiving unit, for receiving the RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries time parameter；

   Resolution unit, for parsing the time parameter from the RRC Connection Releases procedural information.

   9th, a kind of base station, it is characterised in that including：

   Spreading parameter sending module, for sending DRX spreading parameters to the UE serviced, the DRX spreading parameters are used to indicate that the UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1.

   10th, base station according to claim 9, it is characterised in that the spreading parameter sending module includes：

   Transmitting element, for the system broadcast information for carrying DRX spreading parameters to be sent into the UE.

   11st, base station according to claim 9, it is characterised in that the spreading parameter sending module bag Include：

   Transmitting element, for the dedicated signaling for carrying DRX spreading parameters to be sent into the UE.

   12nd, base station according to claim 9, it is characterised in that the spreading parameter sending module includes：

   Transmitting element, for when the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying DRX spreading parameters to be sent into the UE.

   13rd, a kind of base station, it is characterised in that including：

   Time parameter sending module, for sending time parameter to the UE serviced, the time parameter is used to indicate that the UE carries out DRX operations in preset time period.

   14th, method according to claim 13, it is characterised in that the time parameter sending module includes：

   Transmitting element, for the system broadcast information for carrying time parameter to be sent into the UE.

   15th, method according to claim 13, it is characterised in that the time parameter sending module includes：

   Transmitting element, for the dedicated signaling for carrying time parameter to be sent into the UE.

   16th, method according to claim 13, it is characterised in that the time parameter sending module includes：

   Transmitting element, for when the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying time parameter to be sent into the UE.

   17th, a kind of discontinuous reception DRX operating methods, it is characterised in that including：

   UE obtains DRX spreading parameters from serving BS, and the DRX spreading parameters are described for indicating UE carries out a DRX operation per N number of DRX cycle, and Ν is the integer more than 1；

   The UE carries out a DRX per Ν DRX cycle according to the DRX spreading parameters and operated.

   18th, method according to claim 17, it is characterised in that the UE obtains DRX spreading parameters from serving BS, including：

   The UE, which is received, carries DRX spreading parameters in the system broadcast information that the base station is sent, the system broadcast information；

   The UE parses the DRX spreading parameters from the system broadcast information.19th, method according to claim 17, it is characterised in that the UE obtains DRX spreading parameters from serving BS, including：

   The UE receives the dedicated signaling that the base station is sent, and the dedicated signaling carries DRX spreading parameters；

   The UE parses the DRX spreading parameters from the dedicated signaling.

   20th, method according to claim 17, it is characterised in that the UE obtains DRX spreading parameters from serving BS, including：

   The UE receives the RRC Connection Release procedural informations that the base station is sent, and the RRC Connection Releases procedural information carries DRX spreading parameters；

   The UE parses the DRX spreading parameters from the RRC Connection Releases procedural information.

   21st, a kind of discontinuous reception DRX operating methods, it is characterised in that including：

   UE obtains time parameter from serving BS, and the time parameter is used to indicate that the UE carries out DRX operations in preset time period；

   The UE carries out DRX operations according to the time parameter.

   22nd, method according to claim 21, it is characterised in that the UE is obtained from serving BS Time parameter is taken, including：

   The UE is received in the system broadcast information that the base station is sent, the system broadcast information and is carried time parameter；

   The UE parses the time parameter from the system broadcast information.

   23rd, method according to claim 21, it is characterised in that the UE obtains time parameter from serving BS, including：

   The UE receives the dedicated signaling that the base station is sent, and the dedicated signaling carries time parameter；The UE parses the time parameter from the dedicated signaling.

   24th, method according to claim 21, it is characterised in that the UE obtains time parameter from serving BS, including：

   The UE receives the RRC Connection Release procedural informations that the base station is sent, and the RRC Connection Releases procedural information carries time parameter；

   The UE parses the time parameter from the RRC Connection Releases procedural information.

   25th, a kind of discontinuous reception DRX operating methods, it is characterised in that including：

   Base station sends DRX spreading parameters to the UE serviced, and the DRX spreading parameters are used to indicate that the UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1.

   26th, method according to claim 25, it is characterised in that the base station sends DRX spreading parameters to the UE serviced, including：

   The system broadcast information for carrying DRX spreading parameters is sent to the UE by the base station.27th, method according to claim 25, it is characterised in that the base station sends DRX spreading parameters to the UE serviced, including：

   The dedicated signaling for carrying DRX spreading parameters is sent to the UE by the base station. 28th, method according to claim 25, it is characterised in that the base station sends DRX spreading parameters to the UE serviced, including：

   When the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying DRX spreading parameters are sent to the UE by the base station.

   29th, a kind of discontinuous reception DRX operating methods, it is characterised in that including：

   Base station sends time parameter to the UE serviced, and the time parameter is used to indicate that the UE carries out DRX operations in preset time period.

   30th, method according to claim 29, it is characterised in that the base station sends time parameter to the UE serviced, including：

   The system broadcast information for carrying time parameter is sent to the UE by the base station.31st, method according to claim 29, it is characterised in that the base station sends time parameter to the UE serviced, including：

   The dedicated signaling for carrying time parameter is sent to the UE by the base station.

   32nd, method according to claim 29, it is characterised in that the base station sends time parameter to the UE serviced, including：

   When the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying time parameter are sent to the UE by the base station.

   33rd, a kind of user equipment (UE), it is characterised in that including at least one receiver and processor；Wherein described computing device following steps：

   Receiver is controlled to obtain DRX spreading parameters from serving BS, the DRX spreading parameters are used to indicate that UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1； A DRX operation is carried out per N number of DRX cycle according to the DRX spreading parameters.

   34th, UE according to claim 33, it is characterised in that the processor specifically performs following steps when performing control receiver from serving BS acquisition DRX spreading parameters：

   Control receiver to receive to carry in the system broadcast information that the base station is sent, the system broadcast information

   DRX spreading parameters；

   The DRX spreading parameters are parsed from the system broadcast information.

   35th, UE according to claim 33, it is characterised in that the processor specifically performs following steps when performing control receiver from serving BS acquisition DRX spreading parameters：

   Receiver is controlled to receive the dedicated signaling that the base station is sent, the dedicated signaling carries DRX spreading parameters；

   The DRX spreading parameters are parsed from the dedicated signaling.36th, UE according to claim 33, it is characterised in that the processor specifically performs following steps when performing control receiver from serving BS acquisition DRX spreading parameters：

   Receiver is controlled to receive the RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries DRX spreading parameters；

   The DRX spreading parameters are parsed from the RRC Connection Releases procedural information.

   37th, a kind of user equipment (UE), it is characterised in that including at least one receiver and processor；Wherein described computing device following steps：

   Receiver is controlled to obtain time parameter from serving BS, the time parameter is used to indicate that UE carries out DRX operations in preset time period；

   DRX operations are carried out according to the time parameter.

   38th, the UE according to claim 37, it is characterised in that the processor connects in execution control Receive device and obtain time parameter from serving BS, specifically perform following steps：

   Control receiver to receive in the system broadcast information that the base station is sent, the system broadcast information and carry time parameter；

   The UE parses the time parameter from the system broadcast information.

   39th, the UE according to claim 37, it is characterised in that the processor is performing control receiver from serving BS acquisition time parameter, specifically performs following steps：

   Receiver is controlled to receive the dedicated signaling that the base station is sent, the dedicated signaling carries time parameter；The time parameter is parsed from the dedicated signaling.

   40th, the UE according to claim 37, it is characterised in that the processor is performing control receiver from serving BS acquisition time parameter, specifically performs following steps：

   Receiver is controlled to receive the RRC Connection Release procedural informations that the base station is sent, the RRC Connection Releases procedural information carries time parameter；

   The time parameter is parsed from the RRC Connection Releases procedural information.

   41st, a kind of base station, it is characterised in that including processor and at least one transmitter；Wherein described computing device following steps：

   Control transmitter sends DRX spreading parameters to the UE serviced, and the DRX spreading parameters are used to indicate that the UE carries out a DRX operation per N number of DRX cycle, and N is the integer more than 1.

   42nd, base station according to claim 41, it is characterised in that the processor specifically performs following steps when performing control transmitter to the UE transmission DRX spreading parameters serviced：

   The system broadcast information for carrying DRX spreading parameters is sent to the UE by control transmitter.

   43rd, base station according to claim 41, it is characterised in that the processor specifically performs following steps when performing control transmitter to the UE transmission DRX spreading parameters serviced： The dedicated signaling for carrying DRX spreading parameters is sent to the UE by control transmitter.

   44th, base station according to claim 41, it is characterised in that the processor specifically performs following steps when performing control transmitter to the UE transmission DRX spreading parameters serviced：

   When the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying DRX spreading parameters are sent to the UE by control transmitter.

   45th, a kind of base station, it is characterised in that including processor and at least one transmitter；Wherein described computing device following steps：

   Control transmitter sends time parameter to the UE serviced, and the time parameter is used to indicate that the UE carries out DRX operations in preset time period.

   46th, base station according to claim 45, it is characterised in that the processor specifically performs following steps when performing control transmitter to the UE transmission time parameters serviced：

   The system broadcast information for carrying time parameter is sent to the UE by control transmitter.

   47th, base station according to claim 45, it is characterised in that the processor specifically performs following steps when performing control transmitter to the UE transmission time parameters serviced：

   The dedicated signaling for carrying time parameter is sent to the UE by control transmitter.

   48th, base station according to claim 45, it is characterised in that the processor specifically performs following steps when performing control transmitter to the UE transmission time parameters serviced：

   When the UE is converted to idle condition from connection status, the RRC Connection Release procedural informations for carrying time parameter are sent to the UE by control transmitter.